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O. Reg. 332/12: BUILDING CODE
under Building Code Act, 1992, S.O. 1992, c. 23
Skip to contentBuilding Code Act, 1992
Loi de 1992 sur le code du bâtiment
ONTARIO REGULATION 332/12
BUILDING CODE
Historical version for the period September 23, 2014 to December 31, 2014.
Last amendment: O. Reg. 191/14.
This Regulation is made in English only.
DIVISION A
COMPLIANCE, OBJECTIVES AND FUNCTIONAL STATEMENTs
Part 1
Compliance and General
Section |
1.1. |
Organization and Application |
|
1.1.1. |
Organization of this Code |
|
1.1.2. |
Application of Division B |
|
1.1.3. |
Building Size Determination |
|
|
|
Section |
1.2. |
Compliance |
|
1.2.1. |
Compliance with Division B |
|
1.2.2. |
Materials, Appliances, Systems and Equipment |
|
|
|
Section |
1.3. |
Interpretation |
|
1.3.1. |
Interpretation |
|
|
|
Section |
1.4. |
Terms and Abbreviations |
|
1.4.1. |
Definitions of Words and Phrases |
|
1.4.2. |
Symbols and Other Abbreviations |
|
|
|
Section |
1.5. |
Referenced Documents and Organizations |
|
1.5.1. |
Referenced Documents |
|
1.5.2. |
Organizations |
Section 1.1. Organization and Application
1.1.1. Organization of this Code
1.1.1.1. Scope of Division A
(1) Division A contains compliance and application provisions and the objectives and functional statements of this Code.
1.1.1.2. Scope of Division B
(1) Division B contains the acceptable solutions of this Code.
1.1.1.3. Scope of Division C
(1) Division C contains the administrative provisions of this Code.
1.1.1.4. Internal Cross-references
(1) If a provision of this Code contains a reference to another provision of this Code but no Division is specified, both provisions are in the same Division of this Code.
1.1.2. Application of Division B
1.1.2.1. Application of Parts 1, 7 and 12
(1) Parts 1, 7 and 12 of Division B apply to all buildings.
Note: On January 1, 2015, Article 1.1.2.1. is revoked and the following substituted: (See: O. Reg. 191/14, ss. 1, 168 (2))
1.1.2.1. Application of Parts 1, 7 and 12
(1) Part 1 of Division B applies to all buildings.
(2) Subject to Article 1.1.2.6., Parts 7 and 12 of Division B apply to all buildings.
1.1.2.2. Application of Parts 3, 4, 5 and 6
(1) Subject to Articles 1.1.2.6. and 1.3.1.2., Parts 3, 5 and 6 of Division B apply to all buildings,
(a) used for major occupancies classified as,
(i) Group A, assembly occupancies,
(ii) Group B, care, care and treatment or detention occupancies, or
(iii) Group F, Division 1, high hazard industrial occupancies, or
(b) exceeding 600 m2 in building area or exceeding three storeys in building height and used for major occupancies classified as,
(i) Group C, residential occupancies,
(ii) Group D, business and personal services occupancies,
(iii) Group E, mercantile occupancies, or
(iv) Group F, Divisions 2 and 3, medium hazard industrial occupancies and low hazard industrial occupancies.
(2) Subject to Articles 1.1.2.6. and 1.3.1.2., Part 4 of Division B applies to,
(a) post-disaster buildings,
(b) buildings described in Sentence (1),
(c) a retaining wall exceeding 1 000 mm in exposed height adjacent to,
(i) public property,
(ii) access to a building, or
(iii) private property to which the public is admitted,
(d) a pedestrian bridge appurtenant to a building,
(e) a crane runway,
(f) an exterior storage tank and its supporting structure that is not regulated by the Technical Standards and Safety Act, 2000,
(g) signs regulated by Section 3.15. of Division B that are not structurally supported by a building,
(h) a structure that supports a wind turbine generator having a rated output of more than 3 kW,
(i) an outdoor pool that has a water depth greater than 3.5 m at any point, and
(j) a permanent solid nutrient storage facility with supporting walls exceeding 1 000 mm in exposed height.
(3) Section 3.11. of Division B applies to public pools.
(4) Section 3.12. of Division B applies to public spas.
(5) Section 3.15. of Division B applies to signs.
1.1.2.3. Application of Part 8
(1) Part 8 of Division B applies to the design, construction, operation and maintenance of all sewage systems and to the construction of buildings in the vicinity of sewage systems.
Note: On January 1, 2015, Sentence (1) is amended by adding “Subject to Article 1.1.2.6.” at the beginning. (See: O. Reg. 191/14, ss. 2, 168 (2))
1.1.2.4. Application of Part 9
(1) Subject to Articles 1.1.2.6. and 1.3.1.2., Part 9 of Division B applies to all buildings,
(a) of three or fewer storeys in building height,
(b) having a building area not exceeding 600 m2, and
(c) used for major occupancies classified as,
(i) Group C, residential occupancies,
(ii) Group D, business and personal services occupancies,
(iii) Group E, mercantile occupancies, or
(iv) Group F, Divisions 2 and 3, medium hazard industrial occupancies and low hazard industrial occupancies.
1.1.2.5. Application of Part 10
(1) Part 10 of Division B applies to existing buildings requiring a permit under section 10 of the Act.
1.1.2.6. Application of Part 11
(1) Except as provided in Sentence (2), Part 11 of Division B applies to the design and construction of existing buildings, or parts of existing buildings, that have been in existence for at least five years.
(2) If a building has been in existence for at least five years but includes an addition that has been in existence for less than five years, Part 11 of Division B applies to the entire building.
1.1.2.7. Existing Buildings
(1) Except as provided in Section 3.17. of Division B, Section 9.40. of Division B and Part 11 of Division B, if an existing building is extended or is subject to material alteration or repair, this Code applies only to the design and construction of the extensions and those parts of the building that are subject to the material alteration or repair.
(2) If an existing previously occupied building is moved from its original location to be installed elsewhere, or is dismantled at its original location and moved to be reconstituted elsewhere, this Code applies only to changes to the design and construction of the building required as a result of moving the building.
1.1.3. Building Size Determination
1.1.3.1. Building Size Determination of Building Divided by Firewalls
(1) Where a firewall divides a building, each portion of the building that is divided shall be considered as a separate building, except for the purposes of,
(a) a determination of gross area in Section 1.2. of Division C,
(b) a fire alarm and detection system in Sentence 3.2.4.2.(1) of Division B or Article 9.10.18.1. of Division B, and
(c) a plumbing system interconnected through a firewall.
1.1.3.2. Building Size Determination of Building Divided by Vertical Fire Separations
(1) Except as permitted in Sentence (2), if portions of a building are completely separated by a vertical fire separation that has a fire-resistance rating of at least 1 h and that extends through all storeys and service spaces of the separate portions, each separated portion may be considered to be a separate building for the purpose of determining building height if,
(a) each separated portion is not more than three storeys in building height and is used only for residential occupancies, and
(b) the unobstructed path of travel for a firefighter from the nearest street to one entrance to each separated portion is not more than 45 m.
(2) The vertical fire separation in Sentence (1) may terminate at the floor assembly immediately above a basement if the basement conforms to Article 3.2.1.2. of Division B.
Section 1.2. Compliance
1.2.1. Compliance with Division B
1.2.1.1 Compliance with Division B
(1) Compliance with Division B shall be achieved,
(a) by complying with the applicable acceptable solutions in Division B, or
(b) by using alternative solutions that will achieve the level of performance required by the applicable acceptable solutions in respect of the objectives and functional statements attributed to the applicable acceptable solutions in MMAH Supplementary Standard SA-1, “Objectives and Functional Statements Attributed to the Acceptable Solutions”.
(2) For the purposes of Clause (1)(b), the level of performance in respect of a functional statement refers to the performance of the functional statement as it relates to the objective with which it is associated in MMAH Supplementary Standard SA-1, “Objectives and Functional Statements Attributed to the Acceptable Solutions”.
1.2.2. Materials, Appliances, Systems and Equipment
1.2.2.1. Characteristics of Materials, Appliances, Systems and Equipment
(1) All materials, appliances, systems and equipment installed to meet the requirements of this Code shall possess the necessary characteristics to perform their intended functions when installed in a building.
1.2.2.2. Used Materials, Appliances and Equipment
(1) Unless otherwise specified, recycled materials in building products may be used and used materials, appliances and equipment may be reused when they meet the requirements of this Code for new materials and are satisfactory for their intended use.
Section 1.3. Interpretation
1.3.1. Interpretation
1.3.1.1. Designated Structures
(1) The following structures are designated for the purposes of clause (d) of the definition of building in subsection 1 (1) of the Act:
(a) a retaining wall exceeding 1 000 mm in exposed height adjacent to,
(i) public property,
(ii) access to a building, or
(iii) private property to which the public is admitted,
(b) a pedestrian bridge appurtenant to a building,
(c) a crane runway,
(d) an exterior storage tank and its supporting structure that is not regulated by the Technical Standards and Safety Act, 2000,
(e) signs regulated by Section 3.15. of Division B that are not structurally supported by a building,
(f) a solar collector that is mounted on a building and has a face area equal to or greater than 5 m²,
(g) a structure that supports a wind turbine generator having a rated output of more than 3 kW,
(h) a dish antenna that is mounted on a building and has a face area equal to or greater than 5 m²,
(i) an outdoor pool,
(j) an outdoor public spa, and
(k) a permanent solid nutrient storage facility with supporting walls exceeding 1 000 mm in exposed height.
1.3.1.2. Farm Buildings
(1) Except as provided in Sentences (2) to (6), farm buildings shall conform to the requirements in the CCBFC NRCC 38732, “National Farm Building Code of Canada”.
(2) Articles 1.1.1.2. and 3.1.8.1. and Subsections 3.1.4. and 4.1.4. in the CCBFC NRCC 38732, “National Farm Building Code of Canada” do not apply to farm buildings.
(3) In the CCBFC NRCC 38732, “National Farm Building Code of Canada”, references in Articles 1.1.1.3., 2.2.2.1., 2.2.2.2., 2.3.1.1., 2.3.2.1., 3.1.1.1., 3.1.1.2., 3.1.2.1. and 3.1.6.1. to the CCBFC NRCC 38726, “National Building Code of Canada”, are deemed to be references to Ontario Regulation 403/97 (Building Code), as it read on December 30, 2006.
(4) A farm building of low human occupancy having a building area not exceeding 600 m2 and not more than three storeys in building height is deemed to comply with the structural requirements of the CCBFC NRCC 38732, “National Farm Building Code of Canada” if it is designed and constructed in conformance with MMAH Supplementary Standard SB-11, “Construction of Farm Buildings”.
(5) A liquid manure storage tank shall comply with the requirements of Part 4 of Division B of this Code and the requirements of Part 4 of the CCBFC NRCC 38732, “National Farm Building Code of Canada”.
(6) A permanent solid nutrient storage facility shall comply with the requirements of Part 4 of Division B of this Code.
Section 1.4. Terms and Abbreviations
1.4.1. Definitions of Words and Phrases
1.4.1.1. Non-defined Terms
(1) Definitions of words and phrases used in this Code that are not included in the list of definitions in Articles 1.4.1.2., 1.4.1.3. and 1.4.1.4. and are not defined in another provision of this Code shall have the meanings that are commonly assigned to them in the context in which they are used, taking into account the specialized use of terms by the various trades and professions to which the terminology applies.
1.4.1.2. Defined Terms
(1) Each of the words and terms in italics in this Code has,
(a) the same meaning as in subsection 1 (1) of the Act, if not defined in Clause (b) or (c),
(b) the same meaning as in each of the following provisions for the purposes described in the provision:
(i) Sentences 1.4.1.3.(1) and (2) of Division A, and
(ii) Sentences 3.13.1.2.(1), 7.1.3.1.(1), 8.1.1.2.(1) and 11.1.1.2.(1) of Division B, or
(c) the following meaning for the purposes of this Code:
Absorption trench means an excavation in soil, as defined in Part 8 of Division B, or in leaching bed fill, being part of a leaching bed, in which a distribution pipe is laid that allows infiltration of the effluent into the soil, as defined in Part 8 of Division B, or leaching bed fill.
Acceptable solution means a requirement stated in Parts 3 to 12 of Division B.
Accessible means, when applied to a fixture, connection, plumbing appliance, valve, cleanout or equipment, to be accessible with or without having to first remove an access panel, door or similar obstruction, but a fixture, connection, plumbing appliance, valve, cleanout or equipment is not accessible if access can be gained only by cutting or breaking materials.
Access to exit means that part of a means of egress within a floor area that provides access to an exit serving the floor area.
Note: On January 1, 2015, Clause (c) is amended by adding the following definition: (See: O. Reg. 368/13, ss. 1, 43)
Adaptable seating means a fixed seat or seats designed to facilitate a side transfer from a wheelchair.
Additional circuit vent means a vent pipe that is installed between a circuit vent and a relief vent to provide additional air circulation.
Adfreezing means the adhesion of soil to a foundation unit resulting from the freezing of soil water.
Air admittance valve means a one-way valve designed to allow air to enter the drainage system when the pressure in the plumbing system is less than the atmospheric pressure.
Air barrier system means an assembly installed to provide a continuous barrier to the movement of air.
Air break means the unobstructed vertical distance between the lowest point of an indirectly connected waste pipe and the flood level rim of the fixture into which it discharges.
Air-conditioning is the process of treating air in a space to control simultaneously its temperature, humidity, cleanliness, and distribution to meet the comfort requirements of the occupants of the space.
Air gap means the unobstructed vertical distance through air between the lowest point of a water supply outlet and the flood level rim of the fixture or device into which the outlet discharges.
Air-supported structure means a structure consisting of a pliable membrane that achieves and maintains its shape and support by internal air pressure.
Alarm signal means an audible signal transmitted throughout one or more zones of a building or throughout a building to advise occupants that a fire emergency exists.
Alert signal means an audible signal to advise designated persons of a fire emergency.
Allowable bearing pressure means the maximum pressure that may be safely applied to a soil or rock by the foundation unit considered in design under expected loading and subsurface conditions.
Allowable load means the maximum load that may be safely applied to a foundation unit considered in design under expected loading and subsurface conditions.
Alternative solution means a substitute for an acceptable solution.
Appliance means a device to convert fuel into energy and includes all components, controls, wiring and piping required to be part of the device by the applicable standard referred to in this Code.
Architect means the holder of a licence, a certificate of practice or a temporary licence under the Architects Act.
Area affected by a significant drinking water threat means an area described in Clause 1.10.2.3.(2)(b) of Division C.
Artesian groundwater means a confined body of water under pressure in the ground.
As constructed plans means construction plans and specifications that show the building and the location of the building on the property as the building has been constructed.
Assembly occupancy means the occupancy or the use of a building or part of a building by a gathering of persons for civic, political, travel, religious, social, educational, recreational or similar purposes or for the consumption of food or drink.
Attic or roof space means the space between the roof and the ceiling of the top storey or between a dwarf wall and a sloping roof.
Auxiliary water supply means, when applied to premises, any water supply on or available to the premises other than the primary potable water supply for the premises.
Backflow means a flowing back or reversal of the normal direction of the flow.
Backflow preventer means a device or a method that prevents backflow in a water distribution system.
Back-siphonage means backflow caused by a negative pressure in the supply system.
Back-siphonage preventer means a device or a method that prevents back-siphonage in a water distribution system.
Back vent means a pipe that is installed to vent a trap off the horizontal section of a fixture drain or the vertical leg of a water closet or other fixture that has an integral siphonic flushing action and “back vented” has a corresponding meaning.
Backwater valve means a check valve designed for use in a gravity drainage system.
Barrier-free means, when applied to a building and its facilities, that the building and its facilities can be approached, entered and used by persons with physical or sensory disabilities.
Basement means one or more storeys of a building located below the first storey.
Bathroom group means a group of plumbing fixtures installed in the same room, consisting of one domestic-type lavatory, one water closet and either one bathtub, with or without a shower, or one one-headed shower.
Bearing surface means the contact surface between a foundation unit and the soil or rock on which the foundation unit bears.
Boarding, lodging or rooming house means a building,
(a) that has a building height not exceeding three storeys and a building area not exceeding 600 m²,
(b) in which lodging is provided for more than four persons in return for remuneration or for the provision of services or for both, and
(c) in which the lodging rooms do not have both bathrooms and kitchen facilities for the exclusive use of individual occupants.
Boiler means an appliance intended to supply hot water or steam for space heating, processing or power purposes.
Bottle trap means a trap that retains water in a closed chamber and that seals the water by submerging the inlet pipe in the liquids or by a partition submerged in the liquids.
Branch means a soil or waste pipe that is connected at its upstream end to the junction of two or more soil or waste pipes or to a soil or waste stack and that is connected at its downstream end to another branch, a sump, a soil or waste stack or a building drain.
Branch vent means a vent pipe that is connected at its lower end to the junction of two or more vent pipes and that, at its upper end, is connected to another branch vent, a stack vent, a vent stack or a header, or terminates in open air.
Breeching means a flue pipe or chamber for receiving flue gases from one or more flue connections and for discharging these gases through a single flue connection.
Building area means the greatest horizontal area of a building above grade,
(a) within the outside surface of exterior walls, or
(b) within the outside surface of exterior walls and the centre line of firewalls.
Building Code website means the website at www.ontario.ca/buildingcode.
Building control valve means the valve on a water system that controls the flow of potable water from the water service pipe to the water distribution system.
Building drain means the lowest horizontal piping, including any vertical offset, that conducts sewage, clear water waste or storm water by gravity to a building sewer.
Building height means the number of storeys contained between the roof and the floor of the first storey.
Building sewer means a sanitary building sewer or storm building sewer.
Building trap means a trap that is installed in a sanitary building drain or sanitary building sewer to prevent circulation of air between the sanitary drainage system and a public sewer.
Business and personal services occupancy means the occupancy or use of a building or part of a building for the transaction of business or the provision of professional or personal services.
Camp for housing of workers means a camp in which buildings or other structures or premises are used to accommodate five or more employees.
Campground means land or premises used as an overnight camping facility that is not a recreational camp.
Canopy means a roof-like structure projecting more than 300 mm from the exterior face of the building.
Carbon dioxide equivalent means a measure used to compare the impact of various greenhouse gases based on their global warming potential.
Care and treatment occupancy (Group B, Division 2) means an occupancy in which persons receive special care and treatment.
Care occupancy (Group B, Division 3) means an occupancy in which special care is provided by a facility, directly through its staff or indirectly through another provider, to residents of the facility,
(a) who require special care because of cognitive or physical limitations, and
(b) who, as a result of those limitations, would be incapable of evacuating the occupancy, if necessary, without the assistance of another person.
Cavity wall means a construction of masonry units laid with a cavity between the wythes, where the wythes are tied together with metal ties or bonding units and are relied on to act together in resisting lateral loads.
Certificate for the occupancy of a building described in Sentence 1.3.3.4.(3) of Division C means a certificate described in Sentence 3.7.4.3.(6) of Division C.
Note: On January 1, 2015, Clause (c) is amended by adding the following definition: (See: O. Reg. 191/14, ss. 3 (1), 168 (2))
Certificate for the occupancy of a building described in Sentence 1.3.3.5.(1) of Division C means a certificate described in Sentence 3.7.4.3.(7) of Division C.
Certificate for the occupancy of a building not fully completed means a certificate described in Sentence 3.7.4.3.(5) of Division C.
Chamber means a structure that is constructed with an open bottom and that contains a pressurized distribution pipe.
Check valve means a valve that permits flow in only one direction and prevents a return flow.
Chimney means a shaft that is primarily vertical and that encloses at least one flue for conducting flue gases to the outdoors.
Chimney liner means a conduit containing a chimney flue used as a lining of a masonry or concrete chimney.
Circuit vent means a vent pipe that serves a number of fixtures and connects to the fixture drain of the most upstream fixture, and “circuit vented” has a corresponding meaning.
Class 1 fire sprinkler/standpipe system means an assembly of pipes and fittings that conveys water from the water service pipe or fire service main to the sprinkler/standpipe system’s outlets, is directly connected to the public water supply main only, has no pumps or reservoirs and in which the sprinkler drains discharge to the atmosphere, to dry wells or to other safe outlets.
Class 2 fire sprinkler/standpipe system means a Class 1 fire sprinkler/standpipe system that includes a booster pump in its connection to the public water supply main.
Class 3 fire sprinkler/standpipe system means an assembly of pipes and fittings that conveys potable water from the water service pipe or fire service main to the sprinkler/standpipe system’s outlets and that is directly connected to the public water supply main and to one or more of the following storage facilities, which are filled from the public water supply main only: elevated water storage, fire pumps supplying water from aboveground covered reservoirs or pressure tanks.
Class 4 fire sprinkler/standpipe system means an assembly of pipes and fittings that conveys water from the water service pipe or fire service main to the sprinkler/standpipe system’s outlets and is directly connected to the public water supply main (similar to Class 1 and Class 2 fire sprinkler/standpipe systems) and to an auxiliary water supply dedicated to fire department use that is located within 520 m of a pumper connection.
Class 5 fire sprinkler/standpipe system means an assembly of pipes and fittings that conveys water from the water service pipe or fire service main to the sprinkler/standpipe system’s outlets, is directly connected to the public water supply main and is interconnected with an auxiliary water supply.
Class 6 fire sprinkler/standpipe system means an assembly of pipes and fittings that conveys water from the water service pipe or fire service main to the sprinkler/standpipe system’s outlets and acts as a combined industrial water supply and fire protection system that is supplied from the public water supply main only, with or without gravity storage or pump suction tanks.
Cleanout means a fitting access in a drainage system or venting system that is installed to provide access for cleaning and inspection and that is provided with a readily replaceable air tight cover.
Clean water means water that has passed through a recirculation system.
Clear water waste means waste water containing no impurities or contaminants that are harmful to a person’s health, plant or animal life or that impair the quality of the natural environment.
Closed container means a container so sealed by means of a lid or other device that neither liquid nor vapour will escape from it at ordinary temperatures.
Closure means a device or assembly for closing an opening through a fire separation or an exterior wall, such as a door, a shutter, wired glass and glass block, and includes all components such as hardware, closing devices, frames and anchors.
Combustible means that a material fails to meet the acceptance criteria of CAN/ULC-S114, “Test for Determination of Non-Combustibility in Building Materials”.
Combustible construction means a type of construction that does not meet the requirements for noncombustible construction.
Combustible fibres means finely divided combustible vegetable or animal fibres and thin sheets or flakes of such materials which, in a loose, unbaled condition, present a flash fire hazard, and includes cotton, wool, hemp, sisal, jute, kapok, paper and cloth.
Combustible liquid means any liquid having a flash point at or above 37.8°C and below 93.3°C.
Compliance alternative means a substitute for a requirement in another Part of Division B that is listed in Part 10 or 11 of Division B, and “C.A.” has a corresponding meaning.
Compressed gas means,
(a) any contained mixture or material having a vapour pressure exceeding one or both of the following,
(i) 275.8 kPa (absolute) at 21°C, or
(ii) 717 kPa (absolute) at 54°C, or
(b) any liquid having a vapour pressure exceeding 275.8 kPa (absolute) at 37.8°C.
Computer room means a room,
(a) that contains electronic computer or data processing equipment such as main frame type,
(b) that is separated from the remainder of the building for the purpose of controlling the air quality in the room by a self-contained climate control system, and
(c) that has an occupant load of not more than one person for each 40 m² of the room.
Conditioned space means space within a building in which the temperature is controlled to limit variation in response to the exterior ambient temperature or interior differential temperatures by the provision, either directly or indirectly, of heating or cooling over substantial portions of the year.
Construction index means a level on a scale of 1 to 8 determined in accordance with Table 11.2.1.1.A. of Division B designating the expected performance level of the building structure with respect to the type of construction and fire protection of an existing building, and “C.I.” has a corresponding meaning.
Contained use area means a supervised area containing one or more rooms in which occupant movement is restricted to a single room by security measures not under the control of the occupant.
Continuous vent means a vent pipe that is an extension of a vertical section of a branch of fixture drain.
Note: On January 1, 2015, the definition of “continuous vent” is amended by striking out “of fixture drain” at the end and substituting “or fixture drain”. (See: O. Reg. 191/14, ss. 3 (2), 168 (2))
Cooktop means a cooking surface having one or more burners or heating elements.
Critical level means the level of submergence at which a back-siphonage preventer ceases to prevent back-siphonage.
Dangerous goods means those products or substances that are regulated by the Transportation of Dangerous Goods Regulations made under the Transportation of Dangerous Goods Act, 1992 (Canada).
Day camp means a camp or resort that admits persons for a continuous period not exceeding 24 hours.
Day nursery means a day nursery as defined in the Day Nurseries Act.
Dead end means a pipe that terminates with a closed fitting.
Dead load means the weight of all permanent structural and nonstructural components of a building.
Deep foundation means a foundation unit that provides support for a building by transferring loads either by end-bearing to a soil or rock at considerable depth below the building or by adhesion or friction, or both, in the soil or rock in which it is placed. Piles are the most common type of deep foundation.
Design activities means the activities described in subsection 15.11 (5) of the Act.
Design bearing pressure means the pressure applied by a foundation unit to soil or rock, which pressure is not greater than the allowable bearing pressure.
Design capacity means, in the definition of sewage system, the total daily design sanitary sewage flow determined in accordance with Article 8.2.1.3. of Division B.
Designer means the person responsible for the design.
Design load means the load applied to a foundation unit, which load is not greater than the allowable load.
Detention occupancy (Group B, Division 1) means an occupancy in which persons are under restraint or are incapable of self preservation because of security measures not under their control.
Developed length means, when applied to a pipe and fittings, the length along the centre line of the pipe and fittings.
Directly connected means physically connected in such a way that neither water nor gas can escape from the connection.
Distilled beverage alcohol means a beverage that is produced by fermentation and contains more than 20% by volume of water-miscible alcohol.
Distillery means a process plant where distilled beverage alcohols are produced, concentrated or otherwise processed, and includes facilities on the same site where the concentrated products may be blended, mixed, stored or packaged.
Distributing pipe means a pipe or piping in a water distribution system.
Distribution box means a device for ensuring that effluent from a treatment unit is distributed in equal amounts to each line of distribution pipe in a leaching bed.
Distribution pipe means a line or lines of perforated or open jointed pipe or tile installed in a leaching bed for the purpose of distributing effluent from a treatment unit to the soil, as defined in Part 8 of Division B, or leaching bed fill in the leaching bed.
Diving board means a flexible board.
Diving platform means a rigid platform that is not a starting platform.
Drainage system means an assembly of pipes, fittings, fixtures and appurtenances on a property that is used to convey sewage and clear water waste to a main sewer or a private sewage disposal system, and includes a private sewer, but does not include subsoil drainage piping.
Drinking water system has the same meaning as in subsection 2 (1) of the Safe Drinking Water Act, 2002.
Drum trap means a trap whose inlet and outlet are in the sides of the cylindrical body of the trap.
Dual vent means a vent pipe that serves two fixtures and connects at the junction of the trap arms.
Dwelling unit means a suite operated as a housekeeping unit, used or intended to be used by one or more persons and usually containing cooking, eating, living, sleeping and sanitary facilities.
Earth pit privy means a latrine consisting of an excavation in the ground surmounted by a superstructure.
Effluent means sanitary sewage that has passed through a treatment unit.
Electric space heating means an electric energy source that provides more than 10 per cent of the heating capacity provided for a building and includes,
(a) electric resistance unitary baseboard heating,
(b) electric resistance unitary cabinet heating,
(c) electric resistance ceiling cable or floor cable heating,
(d) electric resistance central furnace heating,
(e) electric hot water space heating, and
(f) air source heat pumps in combination with electric resistance backup heating.
Excavation means the space created by the removal of soil, rock or fill for the purposes of construction.
Exhaust duct means a duct through which air is conveyed from a room or space to the outdoors.
Exit means that part of a means of egress, including doorways, that leads from the floor area it serves to a separate building, an open public thoroughfare or an exterior open space protected from fire exposure from the building and having access to an open public thoroughfare.
Exit level means the level of an exit stairway in a building at which an exterior exit door or exit passageway leads to the exterior.
Exit storey means a storey having an exterior exit door in a building governed by Subsection 3.2.6. of Division B.
Exposing building face means that part of the exterior wall of a building that faces one direction and is located between ground level and the ceiling of its top storey or, where the building is divided into fire compartments, the exterior wall of a fire compartment that faces one direction.
Exterior cladding means those components of a building that are exposed to the outdoor environment and are intended to provide protection against wind, water or vapour.
Factory-built chimney means a chimney consisting entirely of factory-made parts, each designed to be assembled with the other without requiring fabrication on site.
Farm building means all or part of a building,
(a) that does not contain any area used for residential occupancy,
(b) that is associated with and located on land devoted to the practice of farming, and
(c) that is used essentially for the housing of equipment or livestock or the production, storage or processing of agricultural and horticultural produce or feeds.
Fill means soil, rock, rubble, industrial waste such as slag, organic material or a combination of these that is transported and placed on the natural surface of a soil or rock or organic terrain; it may or may not be compacted.
Fire block means a material, component or system that restricts the spread of fire within a concealed space or from a concealed space to an adjacent space.
Fire compartment means an enclosed space in a building,
(a) that is separated from all other parts of the building by enclosing construction that provides a fire separation, and
(b) that may be required to have a fire-resistance rating.
Fire damper means a closure that consists of a normally held open damper installed in an air distribution system or in a wall or floor assembly and designed to close automatically in the event of a fire in order to maintain the integrity of the fire separation.
Fire detector means a device that detects a fire condition and automatically initiates an electrical signal to actuate an alert signal or alarm signal and includes heat detectors and smoke detectors.
Fire load means, when applied to occupancy, the combustible contents of a room or floor area expressed in terms of the average weight of combustible materials per unit area, from which the potential heat liberation may be calculated based on the calorific value of the materials, and includes the furnishings, finished floor, wall and ceiling finishes, trim and temporary and movable partitions.
Fire-protection rating means the time in minutes or hours that a closure will withstand the passage of flame when exposed to fire under specified conditions of test and performance criteria, or as otherwise prescribed in this Code.
Fire-resistance rating means the time in minutes or hours that a material or assembly of materials will withstand the passage of flame and the transmission of heat when exposed to fire under specified conditions of test and performance criteria, or as determined by extension or interpretation of information derived from that test and performance as prescribed in this Code.
Fire-retardant treated wood means wood or a wood product that has been impregnated with fire-retardant chemicals to reduce its surface-burning characteristics such as flame spread, rate of fuel contribution and the density of smoke developed.
Fire separation means a construction assembly that acts as a barrier against the spread of fire.
Fire service main means a pipe and its appurtenances that are connected to a source of water and that are located on a property,
(a) between the source of water and the base of the riser of a water-based fire protection system,
(b) between the source of water and inlets to foam making systems,
(c) between the source of water and the base elbow of private hydrants or monitor nozzles,
(d) as fire pump suction and discharge piping not within a building, or
(e) beginning at the inlet side of the check valve on a gravity or pressure tank.
Fire stop means a system consisting of a material, component and means of support, used to fill gaps between fire separations or between fire separations and other assemblies, or used around items that wholly or partially penetrate a fire separation.
Fire stop flap means a device,
(a) that is intended for use in horizontal assemblies that are required to have a fire-resistance rating and incorporate protective ceiling membranes, and
(b) that operates to close off a duct opening through the membrane in the event of a fire.
Firewall means a type of fire separation of noncombustible construction that subdivides a building or separates adjoining buildings to resist the spread of fire and that has a fire-resistance rating as prescribed in this Code and the structural stability to remain intact under fire conditions for the required fire-rated time.
First storey means the storey that has its floor closest to grade and its ceiling more than 1.8 m above grade.
Fixture means a receptacle, plumbing appliance, apparatus or other device that discharges sewage or clear water waste, and includes a floor drain.
Fixture drain means the pipe that connects a trap serving a fixture to another part of a drainage system.
Fixture outlet pipe means a pipe that connects the waste opening of a fixture to the trap serving the fixture.
Fixture unit means, when applied to a drainage system, the unit of measure based on the rate of discharge, time of operation and frequency of use of a fixture that expresses the hydraulic load that is imposed by that fixture on the drainage system.
Fixture unit means, when applied to a water distribution system, the unit of measure based on the rate of supply, time of operation and frequency of use of a fixture or outlet that expresses the hydraulic load that is imposed by that fixture or outlet on the supply system.
Flame-spread rating means an index or classification indicating the extent of the spread of flame on the surface of a material or an assembly of materials, as determined in a standard fire test prescribed in this Code.
Flammable liquid means any liquid having a flash point below 37.8°C and having a vapour pressure not more than 275.8 kPa (absolute) at 37.8°C as determined by ASTM D323, “Vapor Pressure of Petroleum Products (Reid Method)”.
Flash point means the minimum temperature at which a liquid within a container gives off vapour in sufficient concentration to form an ignitable mixture with air near the surface of the liquid.
Flood level rim means the top edge at which water can overflow from a fixture or device.
Floor area means the space on any storey of a building between exterior walls and required firewalls, including the space occupied by interior walls and partitions, but not including exits, vertical service spaces and their enclosing assemblies.
Flow control roof drain means a roof drain that restricts the flow of storm water into the storm drainage system.
Flue means an enclosed passageway for conveying flue gases.
Flue collar means the portion of a fuel-fired appliance designed for the attachment of the flue pipe or breeching.
Flue pipe means the pipe connecting the flue collar of an appliance to a chimney.
Food premises means a floor area where food or drink for human consumption, or an ingredient of food or drink for human consumption, is manufactured, processed, prepared, stored, displayed, handled, served, distributed, sold or offered for sale, but does not include,
(a) a private residence,
(b) a boarding house that provides meals for fewer than 10 boarders,
(c) a building to which Regulation 554 of the Revised Regulations of Ontario, 1990 (Camps in Unorganized Territory) or Regulation 568 of the Revised Regulations of Ontario, 1990 (Recreational Camps) made under the Health Protection and Promotion Act applies,
(d) a plant, as defined in the Milk Act, that is required to be operated under the authority of a licence issued under that Act,
(e) premises where a licensed activity, as defined in the Food Safety and Quality Act, 2001, is carried on by a person who is required to hold a licence issued under that Act,
(f) an egg-grading station or an egg-processing station, as defined in subsection 1 (1) of Ontario Regulation 171/10 (Eggs and Processed Egg), made under the Food Safety and Quality Act, 2001,
(g) a floor area occupied by a church, service club or fraternal organization for the purpose of,
(i) preparing meals for special events for its members and personally invited guests, or
(ii) conducting bake sales, or
(h) a farm building.
Forced-air furnace means a furnace equipped with a fan that provides the primary means for the circulation of air.
Force main means a sanitary drainage pipe through which sanitary sewage is conveyed by mechanical or pneumatic propulsion.
Foundation means a system or arrangement of foundation units through which the loads from a building are transferred to supporting soil or rock.
Foundation unit means one of the structural members of the foundation of a building, such as a footing, raft and pile.
Fresh air inlet means a vent pipe that is installed in conjunction with a building trap and terminates in open air.
Frost action means the phenomenon that occurs when,
(a) water in soil is subjected to freezing which, because of the water ice phase change or ice lens growth, results in a total volume increase or the build-up of expansive forces under confined conditions or both, and
(b) the subsequent thawing leads to loss of soil strength and increased compressibility.
Functional statement means a function set out in Table 3.2.1.1. that a building or an element of a building is intended to perform.
Furnace means a space-heating appliance that uses warm air as the heating medium and usually provides for the attachment of ducts.
Gaming premises means premises that are a gaming site as defined in the Ontario Lottery and Gaming Corporation Act, 1999.
Gas vent means that portion of a venting system designed to convey vent gases to the outdoors,
(a) from the vent connector of a gas-fired appliance, or
(b) directly from the appliance when a vent connector is not used.
Grade means the average level of proposed or finished ground adjoining a building at all exterior walls.
Graded lumber means lumber that has been graded and stamped to indicate its grade, as determined by the NLGA, “Standard Grading Rules for Canadian Lumber”.
Greywater means sanitary sewage of domestic origin that is derived from fixtures other than sanitary units.
Gross area means the total area of all floors above grade measured between the outside surfaces of exterior walls or between the outside surfaces of exterior walls and the centre line of firewalls, except that, in any occupancy other than a residential occupancy, where an access or a building service penetrates a firewall, measurements shall not be taken to the centre line of such firewall.
Ground water means, when applied to a sewage system, water below the surface of the ground that occupies a zone of the earth’s mantle that is saturated with water.
Ground water table means, when applied to a sewage system, the elevation of the upper surface of the ground water existing in the area of the sewage system.
Groundwater means a free standing body of water in the ground.
Groundwater level means the top surface of groundwater.
Guard means a protective barrier, with or without openings through it, that is around openings in floors or at the open sides of stairs, landings, balconies, mezzanines, galleries, raised walkways or other locations to prevent accidental falls from one level to another.
Hauled sewage means sanitary sewage that,
(a) is not finally disposed of at the site where it is produced and is not conveyed by a sewer to sewage works, and
(b) is stored or retained at the site where it is produced for periodic collection, handling, treatment, transportation, storage or processing prior to final disposal at a place other than where it was produced,
and includes sanitary sewage that is removed from a sewage system for the purpose of cleaning or maintaining the system.
Hauled sewage system means works, installations, equipment, operations and land used in connection with the collection, handling, treatment, transportation, storage, processing and disposal of hauled sewage, as regulated under the Environmental Protection Act.
Hazard index means a level on a scale of 1 to 8 determined in accordance with Tables 11.2.1.1.B. to 11.2.1.1.N. of Division B, designating the life safety hazard to occupants of a building based on,
(a) use and occupancy,
(b) occupant load,
(c) the use and function of floor spaces,
(d) the difficulty of egress,
(e) the fire load of contents, finishes and furnishings,
(f) the configuration or compartmentation of floor spaces, and
(g) the size of the building,
and “H.I.” has a corresponding meaning.
Hazardous classroom means a classroom,
(a) that is supplied with flammable gas,
(b) that contains hazardous substances such as chemicals or explosive dusts,
(c) that contains large quantities of combustible materials, or
(d) where cooking equipment is used.
Hazardous room means a room containing sufficient quantities of a substance that, because of its chemical nature, may create an atmosphere or condition of imminent hazard to health.
Header means a vent pipe that connects two or more vent stacks or stack vents to open air.
Header line means a line of pipe with watertight joints installed in a sewage system for the purpose of distributing effluent from a treatment unit to the distribution pipe in a leaching bed.
Heat detector means a fire detector designed to operate at a predetermined temperature or rate of temperature rise.
Heavy timber construction means that type of combustible construction in which a degree of fire safety is attained,
(a) by placing limitations on the sizes of wood structural members and on the thickness and composition of wood floors and roofs, and
(b) by the avoidance of concealed spaces under floors and roofs.
Heritage building means a building,
(a) that is designated under the Ontario Heritage Act, or
(b) that is certified to be of significant architectural or historical value by a recognized, non-profit public organization whose primary object is the preservation of structures of architectural or historical significance and the certification has been accepted by the chief building official.
High ground water table means the highest elevation at which there is physical evidence that the soil, as defined in Part 8 of Division B, or the leaching bed fill has been saturated with water.
High hazard industrial occupancy (Group F, Division 1) means an industrial occupancy containing sufficient quantities of highly combustible and flammable or explosive materials to constitute a special fire hazard because of their inherent characteristics.
Holding tank means a tank designed to totally retain all sanitary sewage discharged into it and requiring periodic emptying.
Home for special care means a home for the care of persons requiring nursing, residential or sheltered care.
Horizontal branch means that part of a waste pipe that is horizontal and installed to convey the discharge from more than one fixture.
Horizontal exit means an exit from one building to another by means of a doorway, vestibule, walkway, bridge or balcony.
Horizontal service space means a space such as an attic, duct, ceiling, roof or crawl space,
(a) that is oriented essentially in a horizontal plane,
(b) that is concealed and generally inaccessible, and
(c) through which building service facilities such as pipes, ducts and wiring may pass.
Hotel means floor areas, a floor area or part of a floor area that contains four or more suites and that provides sleeping accommodation for the travelling public or for recreational purposes.
Hub drain means a drain opening for indirect liquid wastes,
(a) that does not serve as a floor drain,
(b) that has the same pipe size, material and venting requirements as a floor drain,
(c) that has a flood level rim above the floor in which it is installed, and
(d) that receives wastes that are discharged directly into the drain opening.
Impeded egress zone means a supervised area in which occupants have free movement but require the release, by security personnel, of security doors at the boundary before being able to leave the area, but does not include a contained use area.
Indirectly connected means not directly connected.
Indirect service water heater means a service water heater that derives its heat from a heating medium such as warm air, steam or hot water.
Individual vent means a vent pipe that serves one fixture.
Indoor pool means a public pool where the pool and pool deck are totally or partially covered by a roof.
Industrial occupancy means the occupancy or use of a building or part of a building for the assembling, fabricating, manufacturing, processing, repairing or storing of goods or materials.
Interceptor means a receptacle that is designed and installed to prevent oil, grease, sand or other materials from passing into a drainage system.
Interconnected floor space means superimposed floor areas or parts of floor areas in which floor assemblies that are required to be fire separations are penetrated by openings that are not provided with closures.
Lake Simcoe shoreline has the same meaning as in the Lake Simcoe Protection Plan established under the Lake Simcoe Protection Act, 2008 and dated July, 2009.
Note: On January 1, 2016, Clause (c) is amended by adding the following definition: (See: O. Reg. 332/12, Sentences 4.2.1.1.(1), 4.4.1.1.(2))
Lake Simcoe watershed has the same meaning as in section 2 of the Lake Simcoe Protection Act, 2008.
Leaching means dispersal of liquid by downward or lateral drainage or both into permeable soil, as defined in Part 8 of Division B, or leaching bed fill.
Leaching bed means an absorption system constructed as absorption trenches or as a filter bed, located wholly in ground or raised or partly raised above ground, as required by local conditions, to which effluent from a treatment unit is applied for treatment and disposal and that is composed of,
(a) the soil, as defined in Part 8 of Division B, leaching bed fill or other filter media that is contained between the surface on which the sanitary sewage is applied and the bottom of the bed,
(b) the distribution pipe and the stone or gravel layer in which the distribution pipe is located, and
(c) the backfill above the distribution pipe, including the topsoil and sodding or other anti-erosion measure, and the side slopes of any portion elevated above the natural ground elevation.
Leaching bed fill means unconsolidated material suitable for the construction of a leaching bed, placed in the area of the leaching bed in order to obtain the required unsaturated zone below the distribution pipes and the required lateral extent such that the effluent is absorbed.
Leader means a pipe that is installed to carry storm water from a roof to a storm building drain, sewer or other place of disposal.
Limiting distance means the distance from an exposing building face to a property line, to the centre line of a street, lane or public thoroughfare or to an imaginary line between two buildings or fire compartments on the same property, measured at right angles to the exposing building face.
Listed means equipment or materials included in a list published by a certification organization accredited by the Standards Council of Canada.
Liquid manure means manure having a dry matter content of less than 18 per cent or a slump of more than 150 millimetres using the Test Method for the Determination of Liquid Waste (slump test) set out in Schedule 9 to Regulation 347 of the Revised Regulations of Ontario, 1990 (General — Waste Management) made under the Environmental Protection Act.
Live load means a variable load due to the intended use and occupancy that is to be assumed in the design of the structural members of a building and includes loads due to cranes and the pressure of liquids in containers.
Live/work unit means a dwelling unit having an area of not more than 200 m2 that contains a subsidiary business and personal services occupancy or a subsidiary low hazard industrial occupancy, and which is used and operated by one or more persons of a single household.
Loadbearing means, when applied to a building element, subjected to or designed to carry loads in addition to its own dead load, but does not include a wall element subject only to wind or earthquake loads in addition to its own dead load.
Loading rate means the volume in litres of effluent per square metre applied in a single day to soil, as defined in Part 8 of Division B, or leaching bed fill.
Low hazard industrial occupancy (Group F, Division 3) means an industrial occupancy in which the combustible content is not more than 50 kg/m² or 1200 MJ/m² of floor area.
Low human occupancy means, when applied to a farm building, an occupancy in which the occupant load is not more than one person per 40 m² of floor area during normal use.
Major occupancy means the principal occupancy for which a building or part of a building is used or intended to be used, and is deemed to include the subsidiary occupancies that are an integral part of the principal occupancy. The major occupancy classifications used in this Code are as follows:
(a) Group A, Division 1 - Assembly occupancies intended for the production and viewing of the performing arts,
(b) Group A, Division 2 - Assembly occupancies not elsewhere classified in Group A,
(c) Group A, Division 3 - Assembly occupancies of the arena type,
(d) Group A, Division 4 - Assembly occupancies in which occupants are gathered in the open air,
(e) Group B, Division 1 - Detention occupancies,
(f) Group B, Division 2 - Care and treatment occupancies,
(g) Group B, Division 3 - Care occupancies,
(h) Group C - Residential occupancies,
(i) Group D - Business and personal services occupancies,
(j) Group E - Mercantile occupancies,
(k) Group F, Division 1 - High hazard industrial occupancies,
(l) Group F, Division 2 - Medium hazard industrial occupancies, and
(m) Group F, Division 3 - Low hazard industrial occupancies.
Make-up water means water added to a public pool from an external source.
Marquee means a canopy over an entrance to a building.
Masonry or concrete chimney means a chimney of brick, stone, concrete or masonry units constructed on site.
Means of egress includes exits and access to exits and means a continuous path of travel provided for the escape of persons from any point in a building or in a contained open space to,
(a) a separate building,
(b) an open public thoroughfare, or
(c) an exterior open space that is protected from fire exposure from the building and that has access to an open public thoroughfare.
Medium hazard industrial occupancy (Group F, Division 2) means an industrial occupancy in which the combustible content is more than 50 kg/m² or 1200 MJ/m² of floor area and that is not classified as a high hazard industrial occupancy.
Mercantile occupancy means the occupancy or use of a building or part of a building for the displaying or selling of retail goods, wares or merchandise.
Mezzanine means an intermediate floor assembly between the floor and ceiling of any room or storey and includes an interior balcony.
Note: On January 1, 2015, Clause (c) is amended by adding the following definition: (See: O. Reg. 368/13, ss. 1, 43)
Mobility assistive device means a mobility assistive device as defined in section 2 of Ontario Regulation 191/11 (Integrated Accessibility Standards) made under the Accessibility for Ontarians with Disabilities Act, 2005.
Modified pool means a public pool that has a basin-shaped floor sloping downward and inward toward the interior from the rim.
Modified stack venting means a stack venting arrangement in which the stack vent above the connection of the highest stack vented fixture is reduced in diameter.
Municipal drinking water system has the same meaning as in subsection 2 (1) of the Safe Drinking Water Act, 2002.
Nominally horizontal means at an angle of less than 45° with the horizontal.
Nominally vertical means at an angle of not more than 45° with the vertical.
Noncombustible means that a material meets the acceptance criteria of CAN/ULC-S114, “Test for Determination of Non-Combustibility in Building Materials”.
Noncombustible construction means a type of construction in which a degree of fire safety is attained by the use of noncombustible materials for structural members and other building assemblies.
Objective means an objective set out in Article 2.2.1.1.
Occupancy means the use or intended use of a building or part of a building for the shelter or support of persons, animals or property.
Occupant load means the number of persons for which a building or part of a building is designed.
Offset means the piping that connects the ends of two pipes that are parallel.
Offset relief vent means a relief vent that provides additional air circulation upstream and downstream of an offset in a soil or waste stack.
Open air means the atmosphere outside a building.
Open-air storey means a storey in which at least 25 per cent of the total area of its perimeter walls is open to the outdoors in a manner that will provide cross ventilation to the entire storey.
Outdoor pool means a public pool that is not an indoor pool.
Pail privy means a latrine in which the receptacle for human waste consists of a removable container surmounted by a superstructure.
Partition means an interior wall, one storey or part-storey in height, that is not loadbearing.
Party wall means a wall,
(a) that is jointly owned and jointly used by two parties under an easement agreement or by a right in law, and
(b) that is erected at or upon a line separating two parcels of land each of which is, or is capable of being, a separate real estate entity.
Perched groundwater means a free standing body of water in the ground extending to a limited depth.
Percolation time means the average time in minutes that is required for water to drop one centimetre during a percolation test or as determined by a soil evaluation or analysis.
Performance level means the level of performance under which all or part of an existing building functions with respect to its building systems.
Permanent solid nutrient storage facility has the same meaning as in subsection 1 (1) of Ontario Regulation 267/03 (General) made under the Nutrient Management Act, 2002.
Pharmacy means the premises in a building or the part of the premises in which prescriptions are compounded and dispensed for the public or in which drugs are sold by retail.
Pile means a slender deep foundation unit,
(a) that is made of materials such as wood, steel or concrete or a combination of them, and
(b) that is either pre-manufactured and placed by driving, jacking, jetting or screwing, or cast-in-place in a hole formed by driving, excavating or boring.
Plenum means a chamber forming part of an air duct system.
Plumbing appliance means a receptacle or equipment that receives or collects water, liquids or sewage and discharges water, liquid or sewage directly or indirectly to a plumbing system.
Plumbing system means a system of connected piping, fittings, valves, equipment, fixtures and appurtenances contained in plumbing.
Point of entry treatment unit has the same meaning as in subsection 1 (1) of Ontario Regulation 170/03 (Drinking Water Systems) made under the Safe Drinking Water Act, 2002.
Pool deck means the area immediately surrounding a public pool.
Portable privy means a portable latrine in which the receptacle for human body waste and the superstructure are combined structurally into one unit.
Post-disaster building means a building that is essential to the provision of services in the event of a disaster, and includes,
(a) hospitals, emergency treatment facilities and blood banks,
(b) telephone exchanges,
(c) power generating stations and electrical substations,
(d) control centres for land transportation,
(e) public water treatment and storage facilities,
(f) water and sewage pumping stations,
(g) emergency response facilities,
(h) fire, rescue and police stations,
(i) storage facilities for vehicles or boats used for fire, rescue and police purposes, and
(j) communications facilities, including radio and television stations.
Potable means fit for human consumption.
Potable water system means the plumbing that conveys potable water.
Pressurized distribution system means a leaching bed in which the effluent is distributed through the use of pressurized distribution pipes.
Private sewage disposal system means a sewage system or a sewage works that is not owned and operated by the Crown, a municipality or an organization acceptable to the Director responsible for issuing an environmental compliance approval required under section 53 of the Ontario Water Resources Act.
Private sewer means a sewer other than a building sewer that,
(a) is not owned or operated by a municipality, the Ministry of the Environment or another public agency,
(b) receives drainage from more than one sanitary building drain either directly or through more than one sanitary building sewer or receives drainage from more than one storm building drain either directly or through one or more storm building sewers, and connects to a main sewer, or
(c) serves as a place of disposal on the property,
but does not include,
(d) a sewer that carries only the sanitary waste or storm sewage from two semi-detached dwelling units,
(e) a sewer that carries only the sanitary waste or storm sewage from one main building that is of care, care and treatment, detention, commercial or industrial occupancy and one ancillary building, or
(f) a sewer that carries only the sanitary waste or storm sewage from a row housing complex having five or fewer single family residences.
Private use means, when applied to plumbing fixtures, fixtures in residences and apartments, in private bathrooms of hotels, and in similar installations in other buildings for a single household or an individual.
Private water supply means piping that serves as a source of supply on the property to more than one water service pipe.
Private water supply system means an assembly of pipes, fittings, valves, equipment and appurtenances that supplies water from a private source to a potable water system.
Privy vault means a latrine in which the receptacle for human waste consists of a constructed vault from which the waste is periodically removed.
Process plant means an industrial occupancy where materials, including flammable liquids, combustible liquids or gases, are produced or used in a process.
Professional engineer means a person who holds a licence or a temporary licence under the Professional Engineers Act.
Public corridor means a corridor that provides access to exit from more than one suite.
Public heritage building means a heritage building where the occupancy in whole or in part includes viewing of the building by the public provided that displays in it are limited to those relevant to the heritage significance of the building.
Public pool means a structure, basin, chamber or tank containing or intended to contain an artificial body of water for swimming, water sport, water recreation or entertainment, but does not include,
(a) pools operated in conjunction with less than six dwelling units, suites or single family residences or any combination of them,
(b) pools that are used only for commercial display and demonstration purposes,
(c) wading pools,
(d) hydro-massage pools, or
(e) pools that serve only as receiving basins for persons at the bottom of water slides.
Public spa means a hydro-massage pool that contains an artificial body of water, that is intended primarily for therapeutic or recreational use, that is not drained, cleaned or refilled before use by each individual and that utilizes hydrojet circulation, air induction bubbles, current flow or a combination of them over the majority of the pool area, but does not include,
(a) wading pools, or
(b) spas operated in conjunction with less than six dwelling units, suites or single family residences, or any combination of them, for the use of occupants or residents and their visitors.
Public use means, when applied to plumbing fixtures, fixtures in general washrooms of schools, gymnasiums, hotels, bars, public comfort stations and other installations in which fixtures are installed so that their use is unrestricted.
Public way means a sidewalk, street, highway, square or another open space to which the public has access, as of right or by invitation, expressed or implied.
Rainwater means storm sewage runoff that is collected from a roof or the ground, but not from accessible patios and driveways.
Recirculation system means a system,
(a) that maintains the circulation of water through a public pool by pumps, and
(b) that provides continuous treatment of the water, including filtration and chlorination or bromination and any other process that may be necessary for the treatment of the water.
Recreational camp means a camp for recreational activities consisting of one or more buildings or other structures established or maintained as living quarters, with or without charge, for the temporary occupancy of 10 or more persons for five or more days.
Relief vent means a vent pipe that is used in conjunction with a circuit vent to provide additional air circulation between a drainage system and a venting system.
Repair garage means a building or part of a building where facilities are provided for the repair or servicing of motor vehicles.
Residential full flow-through fire sprinkler/standpipe system means an assembly of pipes and fittings installed in the residential portions of a building containing one or two dwelling units that conveys water from the water service pipe to outlets in the sprinkler and standpipe systems and is fully integrated into the potable water system to ensure a regular flow of water through all parts of the sprinkler and standpipe systems.
Residential occupancy means an occupancy in which sleeping accommodation is provided to residents who are not harboured for the purpose of receiving special care or treatment and are not involuntarily detained.
Residential partial flow-through sprinkler/standpipe system means an assembly of pipes and fittings installed in the residential portions of a building containing one or two dwelling units that conveys water from the water service pipe to outlets in the sprinkler and standpipe systems and in which flow occurs during inactive periods of the sprinkler and standpipe systems only through the main header to the water closet located at the farthest point of the sprinkler and standpipe systems.
Return duct means a duct for conveying air from a space being heated, ventilated or air-conditioned back to the heating, ventilating or air-conditioning appliance.
Riser means a water distributing pipe that extends through at least one full storey, as defined in Part 7 of Division B.
Rock means a portion of the earth’s crust that is consolidated, coherent and relatively hard and that is a naturally formed, solidly bonded, mass of mineral matter that cannot readily be broken by hand.
Roof drain means a fitting or device that is installed in the roof to permit storm sewage to discharge into a leader.
Roof gutter means an exterior channel installed at the base of a sloped roof to convey storm sewage.
Sanitary building drain means a building drain that conducts sewage to a building sewer from the most upstream soil or waste stack, branch or fixture drain serving a water closet.
Sanitary building sewer means a pipe that is connected to a sanitary building drain 1 000 mm outside a wall of a building and that conducts sewage to a public sewer or private sewage disposal system.
Sanitary drainage pipe means all piping that conveys sanitary sewage to a place of disposal, including the sanitary building drain, sanitary building sewer, soil pipe, soil stack, waste stack and waste pipe but not the main sewer or piping in a sewage treatment plant.
Sanitary drainage system means a drainage system that conducts sanitary sewage.
Sanitary sewage means,
(a) liquid or water borne waste,
(i) of industrial or commercial origin, or
(ii) of domestic origin, including human body waste, toilet or other bathroom waste, and shower, tub, culinary, sink and laundry waste, or
(b) liquid or water borne waste discharged from a public pool to a drain.
Sanitary sewer means a sewer that conducts sewage.
Sanitary unit means a water closet, urinal, bidet or bedpan washer.
Self-service storage building means a building that is used to provide individual storage spaces to the public and that is open to the public only for those purposes.
Septic tank means a watertight vault in which sanitary sewage is collected for the purpose of removing scum, grease and solids from the liquid without the addition of air and in which solids settling and anaerobic digestion of the sanitary sewage takes place.
Service room means a room provided in a building to contain equipment associated with building services.
Service space means space provided in a building to facilitate or conceal the installation of building service facilities such as chutes, ducts, pipes, shafts or wires.
Service water heater means a device for heating water for plumbing services.
Sewage means sanitary sewage or storm sewage.
Sewage system means,
(a) a chemical toilet, an incinerating toilet, a recirculating toilet, a self-contained portable toilet and all forms of privy, including a portable privy, an earth pit privy, a pail privy, a privy vault and a composting toilet system,
(b) a greywater system,
(c) a cesspool,
(d) a leaching bed system, or
(e) a system that requires or uses a holding tank for the retention of hauled sewage at the site where it is produced before its collection by a hauled sewage system,
where these,
(f) have a design capacity of 10,000 litres per day or less,
(g) have, in total, a design capacity of 10,000 litres per day or less, where more than one of these are located on a lot or parcel of land, and
(h) are located wholly within the boundaries of the lot or parcel of land on which is located the building or buildings they serve.
Sewage works means sewage works as defined in subsection 1 (1) of the Ontario Water Resources Act.
Sewer lateral extension means the portion of a storm building sewer or sanitary building sewer that extends from the public sewer up to 1.5 m into the property.
Shallow buried trench means an absorption trench that contains a chamber.
Shallow foundation means a foundation unit that derives its support from soil or rock located close to the lowest part of the building that it supports.
Shelf and rack storage system means a self-contained structural system within a building, having one or more elevated platforms or walkway levels for personnel access that may also support conveyors and other material handling, storage and distribution equipment.
Significant drinking water threat has the same meaning as in subsection 2 (1) of the Clean Water Act, 2006.
Size means the nominal diameter by which a pipe, fitting, trap or other similar item is commercially designated.
Smoke alarm means a combined smoke detector and audible alarm device designed to sound an alarm within the room or suite in which it is located on the detection of smoke within that room or suite.
Smoke detector means a fire detector designed to operate when the concentration of airborne combustion products exceeds a pre-determined level.
Soil means, except for the purposes of Part 8 of Division B, a portion of the earth’s crust that is fragmentary or such that individual particles of a dried sample may be readily separated by agitation in water, and includes boulders, cobbles, gravel, sand, silt, clay and organic matter.
Soil pipe means a sanitary drainage pipe that carries the discharge of a sanitary unit, with or without the discharge from any other fixture.
Soil stack means a vertical soil pipe that passes through one or more storeys and includes any offset that is part of the stack.
Source protection area has the same meaning as in subsection 2 (1) of the Clean Water Act, 2006.
Source protection plan has the same meaning as in subsection 2 (1) of the Clean Water Act, 2006.
Space heater means a space-heating appliance for heating the room or space within which it is located, without the use of ducts.
Space-heating appliance means an appliance,
(a) that is intended to supply heat directly to a room or space, such as a space heater, fireplace and unit heater, or
(b) that is intended to supply heat to rooms or spaces of a building through a heating system, such as a central furnace or boiler.
Sprinklered means equipped with a system of automatic sprinklers.
Stack vent means a vent pipe that connects the top of a soil stack or waste stack to a header or open air and “stack vented” has a corresponding meaning.
Stack venting means, when used with reference to fixtures, an arrangement such that the connections of the drainage piping from the stack vented fixtures to the stack provide venting to the fixture traps so that no additional vent pipe is required.
Stage means a space that is designed primarily for theatrical performances with provision for quick change scenery and overhead lighting, including environmental control for a wide range of lighting and sound effects, and that is traditionally, but not necessarily, separated from the audience by a proscenium wall and curtain opening.
Starting platform means a rigid platform located entirely on a pool deck that consists of a top that, if projected horizontally over the water surface, would be less than 1 000 mm in vertical height above the surface and that is designed to be used by a swimmer to dive from at the start of a swimming race.
Storage garage means a building or part of a building that is intended for the storage or parking of motor vehicles and that contains no provision for the repair or servicing of motor vehicles.
Storage-type service water heater means a service water heater with an integral hot water storage tank.
Storey means, except for the purposes of Part 7 of Division B, the portion of a building,
(a) that is situated between the top of any floor and the top of the floor next above it, or
(b) that is situated between the top of the floor and the ceiling above the floor, if there is no floor above it.
Storm building drain means a building drain that conducts storm water and is connected at its upstream end to a leader, sump or catch basin, and at its downstream end to a building sewer or a designated storm water disposal location.
Storm building sewer means a building sewer that conveys storm sewage to a place of disposal and commences 1 000 mm from the building.
Storm drainage pipe means all the connected piping that conveys storm sewage to a place of disposal and includes the storm building drain, storm building sewer, rain water leader, catch basin and area drain installed to collect water from the property and the piping that drains water from a swimming pool, other than a public pool, or from water cooled air-conditioning equipment, but does not include,
(a) a subsoil drainage pipe, or
(b) a private sewage treatment and disposal facility designed for the treatment or retention of storm sewage prior to discharge to the natural environment.
Storm drainage system means a drainage system that conveys storm sewage.
Storm sewage means water that is discharged from a surface as a result of rainfall, snow melt or snowfall.
Storm sewer means a sewer that conveys storm sewage.
Stove means an appliance intended for cooking or space heating or both.
Street means any highway, road, boulevard, square or other improved thoroughfare that is 9 m or more in width, that has been dedicated or deeded for public use and that is accessible to fire department vehicles and equipment.
Subsoil drainage pipe means a pipe that is installed underground to intercept and convey subsurface water, and includes foundation drain pipes.
Subsurface investigation means the appraisal of the general subsurface conditions at a building site by analysis of information gained by methods such as geological surveys, in situ testing, sampling, visual inspection, laboratory testing of samples of the subsurface materials and groundwater observations and measurements.
Suite means a single room or series of rooms of complementary use, operated under a single tenancy, and includes,
(a) dwelling units,
(b) individual guest rooms in motels, hotels, boarding houses, rooming houses and dormitories, and
(c) individual stores and individual or complementary rooms for business and personal services occupancies.
Supply duct means a duct for conveying air from a heating, ventilating or air-conditioning appliance to a space to be heated, ventilated or air-conditioned.
Surface water means water on the surface of the ground.
Tarion Warranty Corporation means Tarion Warranty Corporation as designated under section 2 of the Ontario New Home Warranties Plan Act.
Theatre means a place of public assembly intended for the production and viewing of the performing arts or the screening and viewing of motion pictures, and consisting of an auditorium with permanently fixed seats intended solely for a viewing audience.
Trap means a fitting or device that is designed to hold a liquid seal that will prevent the passage of gas but will not materially affect the flow of a liquid.
Trap arm means that portion of a fixture drain between the trap weir and the vent pipe fitting.
Trap dip means the lowest part of the upper interior surface of a trap.
Trap seal depth means the vertical distance between the trap dip and the trap weir.
Trap standard means the trap for a fixture that is integral with the support for the fixture.
Trap weir means the highest part of the lower interior surface of a trap.
Treatment unit means a device that, when designed, installed and operated in accordance with its design specifications, provides a specific degree of sanitary sewage treatment to reduce the contaminant load from that of sanitary sewage to a given effluent quality.
Tribunal means the Licence Appeal Tribunal established under the Licence Appeal Tribunal Act, 1999.
Type A dispersal bed means a leaching bed that receives effluent from a Level IV treatment unit as described in Table 8.6.2.2. of Division B and that is comprised of a stone layer above an unsaturated sand layer as described in Subsection 8.7.7. of Division B.
Type B dispersal bed means a leaching bed comprised of a pressurized distribution system that uniformly distributes effluent from a Level IV treatment unit as described in Table 8.6.2.2. of Division B to the underlying soil, as defined in Part 8 of Division B, through a set of distribution pipes installed in a bed comprised of septic stone.
Unit heater means a suspended space heater with an integral air circulating fan.
Unprotected opening means, when applied to an exposing building face,
(a) a doorway, window or opening, other than one equipped with a closure having the required fire-protection rating, or
(b) any part of a wall forming part of the exposing building face that has a fire-resistance rating less than required for the exposing building face.
Unstable liquid means a liquid, including flammable liquids and combustible liquids, that is chemically reactive to the extent that it will vigorously react or decompose at or near normal temperature and pressure conditions or that is chemically unstable when subjected to impact.
Vacuum breaker means back-siphonage preventer.
Vapour barrier means the elements installed to control the diffusion of water vapour.
Vent connector means, when applied to a heating or cooling system, the part of a venting system that conducts the flue gases or vent gases from the flue collar of a gas appliance to the chimney or gas vent, and may include a draft control device.
Vent pipe means a pipe that is part of a venting system.
Vent stack means a vent pipe that is connected at its upper end to a header or is terminated in open air and that is used to limit pressure differential in a soil or waste stack.
Venting system means an assembly of pipes and fittings that connects a drainage system with open air for circulation of air and the protection of trap seals in the drainage system.
Vertical leg means the vertical portion of a fixture drain and includes the portion of a drain from the outlet of a water closet bowl to the point where the connecting piping changes to horizontal.
Vertical service space means a shaft that is oriented essentially vertically and that is provided in a building to facilitate the installation of building services, including mechanical, electrical and plumbing installations and facilities such as elevators, refuse chutes and linen chutes.
Vulnerable area has the same meaning as in subsection 2 (1) of the Clean Water Act, 2006.
Walkway means a covered or roofed pedestrian thoroughfare used to connect two or more buildings.
Waste pipe means a sanitary drainage pipe that carries the discharge from a fixture directly to a waste stack, soil stack, sanitary building drain, branch or sewage system.
Waste stack means a vertical waste pipe that passes through one or more storeys and includes any offset that is part of the stack that conducts liquid waste from fixtures other than sanitary units.
Water distribution system means an assembly of pipes, fittings, valves and appurtenances that conveys potable water to water supply outlets, fixtures, plumbing appliances and devices from the water service pipe or from a point of entry treatment unit located in the building.
Water purveyor means the owner or operator of a drinking water system.
Water service pipe means a pipe on the property that conveys potable water from a drinking water system or a private water supply to the inside of the building.
Water system means a water service pipe, a private water supply, a water distribution system, a fire service main or any part of any of them.
Wave action pool means a public pool equipped with a means for inducing wave motion in the water.
Wet vent means a waste pipe that also serves as a vent pipe.
Working capacity means the volume of liquid that a treatment unit or holding tank is capable of holding without overflowing while it is in its working position, but does not include the volume of liquid contained in a compartment in which a pump or siphon is installed.
X-ray equipment includes x-ray imaging systems, processing equipment and equipment directly related to the production of images for diagnosis or directly related to irradiation with x-rays for therapy.
X-ray machine means an electrically-powered device producing x-rays,
(a) for the irradiation of a human being or an animal for a therapeutic or diagnostic purpose, or
(b) for industrial use.
Yoke vent means a vent pipe that is connected at its lower end to a soil or waste stack and at its upper end to a vent stack or a branch vent that is connected to a vent stack.
1.4.1.3. Definition of Applicable Law
(1) For the purposes of clause 8 (2) (a) of the Act, applicable law means,
(a) the statutory requirements in the following provisions with respect to the following matters:
(i) section 114 of the City of Toronto Act, 2006 with respect to the approval by the City of Toronto or the Ontario Municipal Board of plans and drawings,
(ii) section 59 of the Clean Water Act, 2006 with respect to the issuance of a notice by the risk management official for the construction of a building,
(iii) section 5 of Regulation 262 of the Revised Regulations of Ontario, 1990 (General), made under the Day Nurseries Act, with respect to the approval of plans for a new building to be erected or an existing building to be used, altered or renovated for use as a day nursery or for alterations or renovations to be made to premises used by a day nursery,
(iv) section 194 of the Education Act with respect to the approval of the Minister for the demolition of a building,
(v) section 6 of Regulation 314 of the Revised Regulations of Ontario, 1990 (General), made under the Elderly Persons Centres Act, with respect to the approval of the Minister for the construction of a building project,
(vi) section 5 of the Environmental Assessment Act with respect to the approval of the Minister or the Environmental Review Tribunal to proceed with an undertaking,
(vii) section 46 of the Environmental Protection Act with respect to the approval of the Minister to use land or land covered by water that has been used for the disposal of waste,
(viii) section 47.3 of the Environmental Protection Act with respect to the issuance of a renewable energy approval,
(ix) section 168.3.1 of the Environmental Protection Act with respect to the construction of a building to be used in connection with a change of use of a property,
(x) paragraph 2 of subsection 168.6 (1) of the Environmental Protection Act if a certificate of property use has been issued in respect of the property under subsection 168.6 (1) of that Act,
(xi) section 14 of the Milk Act with respect to the permit from the Director for the construction or alteration of any building intended for use as a plant,
(xii) section 11.1 of Ontario Regulation 267/03 (General), made under the Nutrient Management Act, 2002, with respect to a proposed building or structure to house farm animals or store nutrients if that Regulation requires the preparation and approval of a nutrient management strategy before construction of the proposed building or structure,
(xiii) subsection 30 (2) of the Ontario Heritage Act with respect to a consent of the council of a municipality to the alteration or demolition of a building where the council of the municipality has given a notice of intent to designate the building under subsection 29 (3) of that Act,
(xiv) section 33 of the Ontario Heritage Act with respect to the consent of the council of a municipality for the alteration of property,
(xv) section 34 of the Ontario Heritage Act with respect to the consent of the council of a municipality for the demolition of a building,
(xvi) section 34.5 of the Ontario Heritage Act with respect to the consent of the Minister to the alteration or demolition of a designated building,
(xvii) subsection 34.7 (2) of the Ontario Heritage Act with respect to a consent of the Minister to the alteration or demolition of a building where the Minister has given a notice of intent to designate the building under section 34.6 of that Act,
(xviii) section 42 of the Ontario Heritage Act with respect to the permit given by the council of a municipality for the erection, alteration or demolition of a building,
(xix) section 14 of the Ontario Planning and Development Act, 1994 with respect to any conflict between a development plan made under that Act and a zoning by-law that affects the proposed building or structure,
(xx) section 41 of the Planning Act with respect to the approval by the council of the municipality or the Ontario Municipal Board of plans and drawings,
(xxi) section 42 of the Planning Act with respect to the payment of money or making arrangements satisfactory to the council of a municipality for the payment of money, where the payment is required under subsection 42 (6) of that Act,
(xxii) section 2 of Ontario Regulation 239/13 (Activities on Public Lands and Shore Lands — Work Permits and Exemptions), made under the Public Lands Act, with respect to the work permit authorizing the construction or placement of a building on public land,
(xxii.1) section 5 of Ontario Regulation 239/13 with respect to the exemption from the requirement to obtain a work permit authorizing the construction or placement of a building within an unpatented mining claim,
(xxiii) section 34 or 38 of the Public Transportation and Highway Improvement Act with respect to the permit from the Minister for the placement, erection or alteration of any building or other structure or the use of land,
(b) the following provisions of Acts and regulations:
(i) subsection 102 (3) of the City of Toronto Act, 2006,
(ii) sections 28 and 53 of the Development Charges Act, 1997,
(iii) sections 257.83 and 257.93 of the Education Act,
(iv) subsection 5 (4) of the Environmental Assessment Act,
(v) subsection 133 (4) of the Municipal Act, 2001,
(vi) subsection 24 (3) of the Niagara Escarpment Planning and Development Act,
(vii) subsection 27 (3) of the Ontario Heritage Act,
(viii) section 33 of the Planning Act except where, in the case of the demolition of a residential property, a permit to demolish the property is obtained under that section,
(ix) section 46 of the Planning Act,
(c) regulations made by a conservation authority under clause 28 (1) (c) of the Conservation Authorities Act with respect to permission of the authority for the construction of a building or structure if, in the opinion of the authority, the control of flooding, erosion, dynamic beaches or pollution or the conservation of land may be affected by the development,
(d) by-laws made under section 108 of the City of Toronto Act, 2006, but only with respect to the issuance of a permit for the construction of a green roof if the construction of the roof is prohibited unless a permit is obtained,
(e) by-laws made under section 40.1 of the Ontario Heritage Act,
(f) by-laws made under section 34 or 38 of the Planning Act,
(g) subject to clause (h), by-laws made under Ontario Regulation 608/06 (Development Permits) made under the Planning Act,
(h) by-laws referred to in clause (g) in relation to the development of land, but only with respect to the issuance of a development permit if the development of land is prohibited unless a development permit is obtained,
(i) by-laws made under Ontario Regulation 246/01 (Development Permits) made under the Planning Act which continue in force despite the revocation of that Regulation by reason of section 17 of Ontario Regulation 608/06 (Development Permits) made under that Act,
(j) orders made by the Minister under section 47 of the Planning Act or subsection 17 (1) of the Ontario Planning and Development Act, 1994, and
(k) by-laws made under any private Act that prohibit the proposed construction or demolition of the building unless the by-law is complied with.
(2) For the purposes of clause 10 (2) (a) of the Act, applicable law means any general or special Act, and all regulations and by-laws enacted under them that prohibit the proposed use of the building unless the Act, regulation or by-law is complied with.
1.4.1.4. Other definitions for the purposes of the Act
(1) For the purposes of the Act, architect, as constructed plans and professional engineer have the same meaning as that set out in Clause 1.4.1.2.(1)(c).
1.4.2. Symbols and Other Abbreviations
1.4.2.1. Symbols and Other Abbreviations
(1) In this Code, a symbol or abbreviation listed in Column 1 of Table 1.4.2.1. has the meaning listed opposite it in Column 2.
Table 1.4.2.1.
Symbols and Abbreviations
Forming Part of Sentence 1.4.2.1.(1)
Item |
Column 1 Symbol or Abbreviation |
Column 2 Meaning |
1. |
1 in 2 |
slope of 1 vertical to 2 horizontal |
2. |
ASWG |
American Steel Wire Gage |
3. |
ABS |
acrylonitrile-butadiene-styrene |
4. |
Bq |
becquerel(s) |
5. |
CBOD5 |
the five day carbonaceous biochemical oxygen demand |
6. |
CO2e |
carbon dioxide equivalent |
7. |
CFU |
colony forming units |
8 |
cm |
centimetre(s) |
9. |
cm² |
square centimetre(s) |
10. |
CPVC |
chlorinated poly (vinyl chloride) |
11. |
dB(A) |
A-weighted sound level |
12. |
° |
degree(s) |
13. |
°C |
degree(s) Celsius |
14. |
diam |
diameter |
15. |
DWV |
drain, waste and vent |
16. |
ft |
foot (feet) |
17. |
g |
gram(s) |
18. |
ga |
gauge |
19. |
gal |
imperial gallon(s) |
20. |
gal/min |
imperial gallon(s) per minute |
21. |
h |
hour(s) |
22. |
HVAC |
heating, ventilating and air-conditioning |
23. |
Hz |
hertz |
24. |
in. |
inch(es) |
25. |
J |
joule(s) |
26. |
kg |
kilogram(s) |
27. |
kg/m² |
kilograms per square metre |
28. |
kN |
kilonewton(s) |
28. |
kPa |
kilopascal(s) |
30. |
kW |
kilowatt(s) |
31. |
L |
litre(s) |
32 |
L/min |
litre(s) per minute |
33. |
L/s |
litre(s) per second |
34. |
LPF |
litres per flush |
35. |
lx |
lux |
36. |
m |
metre(s) |
37. |
m² |
square metre(s) |
38 |
m3 |
cubic metre(s) |
39. |
m/s |
metre(s) per second |
40. |
max. |
maximum |
41. |
mg/L |
milligram(s) per litre |
42. |
min |
minute(s) |
43. |
min. |
minimum |
44. |
MJ |
megajoule(s) |
45. |
mm |
millimetre(s) |
46. |
MPa |
megapascal(s) |
47. |
N |
newton |
48. |
N/A |
not applicable |
49. |
ng |
nanogram(s) |
50. |
No. |
number(s) |
51. |
nom. |
nominal |
52. |
o.c. |
on centre |
53. |
OSB |
oriented strandboard |
54. |
Pa |
pascal(s) |
55. |
PB |
polybutylene |
56. |
PE |
polyethylene |
57. |
PE/AL/PE |
polyethylene/aluminum/polyethylene |
58. |
PEX |
crosslinked polyethylene |
59. |
PEX/AL/PEX |
crosslinked polyethylene/aluminum/crosslinked polyethylene |
60. |
PVC |
poly (vinyl chloride) |
61. |
RSI |
thermal resistance, International System of Units |
62. |
s |
second(s) |
63. |
temp. |
temperature |
64. |
T&G |
tongue and groove |
65. |
W |
watt(s) |
66. |
wt |
weight |
67. |
% |
percent |
68. |
µg |
microgram(s) |
69. |
µm |
micron |
Note: On January 1, 2015, Items 6 to 9 are revoked and the following substituted: (See: O. Reg. 191/14, ss. 4, 168 (2))
6. |
cd |
candela(s) |
7. |
CFU |
colony forming units |
8. |
cm |
centimetre(s) |
9. |
cm² |
square centimetre(s) |
9.1 |
CO2e |
carbon dioxide equivalent |
Section 1.5. Referenced Documents and Organizations
1.5.1. Referenced Documents
1.5.1.1. Application of Referenced Documents
(1) The provisions of a referenced document in Divisions A and B apply only to the extent that the provisions relate to,
(a) buildings, and
(b) the objectives and functional statements attributed to the applicable acceptable solutions in Division B where the document is referenced.
1.5.1.2. Conflicting Requirements
(1) In the case of a conflict between the provisions of this Code and those of a referenced document, the provisions of this Code shall govern.
1.5.1.3. Applicable Editions
(1) Where documents are referenced in this Code, they shall be the editions designated in Subsection 1.3.1. of Division B.
1.5.2. Organizations
1.5.2.1. Abbreviations of Proper Names
(1) The abbreviations of proper names in this Code shall have the meanings assigned to them in Article 1.3.2.1. of Division B.
O. Reg. 332/12, Division A, Part 1; O. Reg. 151/13, ss. 1, 2; O. Reg. 361/13, ss. 1, 2.
Part 2
Objectives
Section |
2.1. |
Application |
|
2.1.1. |
Application |
|
|
|
Section |
2.2. |
Objectives |
|
2.2.1. |
Objectives |
Section 2.1. Application
2.1.1. Application
2.1.1.1. Application of Objectives
(1) The objectives set out in Table 2.2.1.1. apply only to the extent that they relate to compliance with this Code as required in Article 1.2.1.1.
Section 2.2. Objectives
2.2.1. Objectives
2.2.1.1. Objectives
(1) The objectives of this Code shall be those set out in Table 2.2.1.1.
Table 2.2.1.1.
Objectives
Forming Part of Sentence 2.2.1.1.(1)
Item |
Column 1 Category |
Column 2 Number |
Column 3 Objective |
1. |
Safety |
OS |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury. |
|
Safety — Fire Safety |
OS1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to fire. |
|
|
OS1.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to fire caused by a fire or explosion. |
|
|
OS1.2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to fire caused by fire or explosion impacting areas beyond its point of origin. |
|
|
OS1.3 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to fire caused by the collapse of physical elements due to a fire or explosion. |
|
|
OS1.4 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to fire caused by fire safety systems failing to function as expected. |
|
|
OS1.5 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to fire caused by persons being delayed in or impeded from moving to a safe place during a fire emergency. |
|
Safety — Structural Safety |
OS2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to structural failure. |
|
|
OS2.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to structural failure caused by loads bearing on the building elements that exceed their loadbearing capacity. |
|
|
OS2.2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to structural failure caused by loads bearing on the building that exceed the loadbearing properties of the supporting medium. |
|
|
OS2.3 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to structural failure caused by damage to or deterioration of building elements. |
|
|
OS2.4 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to structural failure caused by vibration or deflection of building elements. |
|
|
OS2.5 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to structural failure caused by instability of the building or part of it. |
|
|
OS2.6 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to structural failure caused by collapse of the excavation. |
|
Safety — Safety in Use |
OS3 |
An objective of this Code is to limit the probability that, as a result of the design or construction of the building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to hazards. |
|
|
OS3.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to hazards caused by tripping, slipping, falling, contact, drowning or collision. |
|
|
OS3.2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to hazards caused by contact with hot surfaces or substances. |
|
|
OS3.3 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to hazards caused by contact with energized equipment. |
|
|
OS3.4 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to hazards caused by exposure to hazardous substances. |
|
|
OS3.5 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to hazards caused by exposure to high levels of sound from fire alarm systems. |
|
|
OS3.6 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to hazards caused by persons becoming trapped in confined spaces. |
|
|
OS3.7 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of injury due to hazards caused by persons being delayed in or impeded from moving to a safe place during an emergency. |
|
Safety — Resistance to Unwanted Entry |
OS4 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of injury due to the building’s low level of resistance to unwanted entry. |
|
|
OS4.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of injury due to the building’s low level of resistance to unwanted entry caused by intruders being able to force their way through locked doors or windows. |
|
|
OS4.2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of injury due to the building’s low level of resistance to unwanted entry caused by occupants being unable to identify potential intruders as such. |
2. |
Health |
OH |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person will be exposed to an unacceptable risk of illness. |
|
Health — Indoor Conditions |
OH1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to indoor conditions. |
|
|
OH1.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to indoor conditions caused by inadequate indoor air quality. |
|
|
OH1.2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to indoor conditions caused by inadequate thermal comfort. |
|
|
OH1.3 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to indoor conditions caused by contact with moisture. |
|
Health — Sanitation |
OH2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in or adjacent to the building will be exposed to an unacceptable risk of illness due to unsanitary conditions. |
|
|
OH2.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to unsanitary conditions caused by exposure to human or domestic waste. |
|
|
OH2.2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to unsanitary conditions caused by consumption of contaminated water. |
|
|
OH2.3 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to unsanitary conditions caused by inadequate facilities for personal hygiene. |
|
|
OH2.4 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to unsanitary conditions caused by contact with contaminated surfaces. |
|
|
OH2.5 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to unsanitary conditions caused by contact with vermin and insects. |
|
|
OH2.6 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person adjacent to the building will be exposed to an unacceptable risk of illness due to unsanitary conditions caused by exposure to human or domestic waste. |
|
Health — Noise Protection |
OH3 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to high levels of sound originating in adjacent spaces in the building. |
|
|
OH3.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to high levels of sound originating in adjacent spaces in the building caused by exposure to airborne sound transmitted through assemblies separating dwelling units from adjacent spaces in the building. |
|
Health — Vibration and Deflection Limitation |
OH4 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be exposed to an unacceptable risk of illness due to high levels of vibration or deflection of building elements. |
|
Health — Hazardous Substances Containment |
OH5 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, the public will be exposed to an unacceptable risk of illness due to the release of hazardous substances from the building. |
|
Health — Privacy |
OH6 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be provided with an unacceptable level of privacy. |
|
Health — View to the Outdoors |
OH7 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person in the building will be unable to experience a view to the outdoors. |
3. |
Accessibility |
OA |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person with a physical or sensory disability will be unacceptably impeded from accessing or using the building or its facilities. |
|
Accessibility — Barrier-free Path of Travel |
OA1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person with a physical or sensory disability will be unacceptably impeded from accessing the building or circulating within it. |
|
Accessibility — Barrier-free Facilities |
OA2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a person with a physical or sensory disability will be unacceptably impeded from using the building’s facilities. |
4. |
Fire, Structural, Water and Sewage Protection of Buildings |
OP |
An objective of this Code is to limit the probability that, as a result of its design or construction, the building or adjacent buildings will be exposed to an unacceptable risk of damage due to fire or structural insufficiency, or the building or part of it will be exposed to an unacceptable risk of loss of use also due to structural insufficiency. |
|
Fire, Structural, Water and Sewage Protection of Buildings — Fire Protection of the Building |
OP1 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building will be exposed to an unacceptable risk of damage due to fire. |
|
|
OP1.1 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building will be exposed to an unacceptable risk of damage due to fire caused by fire or explosion occurring. |
|
|
OP1.2 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building will be exposed to an unacceptable risk of damage due to fire caused by fire or explosion impacting areas beyond its point of origin. |
|
|
OP1.3 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building will be exposed to an unacceptable risk of damage due to fire caused by collapse of physical elements due to a fire or explosion. |
|
|
OP1.4 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building will be exposed to an unacceptable risk of damage due to fire caused by fire safety systems failing to function as expected. |
|
Fire, Structural, Water and Sewage Protection of Buildings — Structural Sufficiency of the Building |
OP2 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building or part of it will be exposed to an unacceptable risk of damage or loss of use due to structural failure or lack of structural serviceability. |
|
|
OP2.1 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building or part of it will be exposed to an unacceptable risk of damage or loss of use due to structural failure or lack of structural serviceability caused by loads bearing on the building elements that exceed their loadbearing capacity. |
|
|
OP2.2 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building or part of it will be exposed to an unacceptable risk of damage or loss of use due to structural failure or lack of structural serviceability caused by loads bearing on the building that exceed the loadbearing properties of the supporting medium. |
|
|
OP2.3 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building or part of it will be exposed to an unacceptable risk of damage or loss of use due to structural failure or lack of structural serviceability caused by damage to or deterioration of building elements. |
|
|
OP2.4 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building or part of it will be exposed to an unacceptable risk of damage or loss of use due to structural failure or lack of structural serviceability caused by vibration or deflection of building elements. |
|
|
OP2.5 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building or part of it will be exposed to an unacceptable risk of damage or loss of use due to structural failure or lack of structural serviceability caused by instability of the building or part of it. |
|
|
OP2.6 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building or part of it will be exposed to an unacceptable risk of damage or loss of use due to structural failure or lack of structural serviceability caused by instability or movement of the supporting medium. |
|
Fire, Structural, Water and Sewage Protection of Buildings — Protection of |
OP3 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, adjacent buildings will be exposed to an unacceptable risk of damage due to fire. |
|
Adjacent Buildings from Fire |
OP3.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, adjacent buildings will be exposed to an unacceptable risk of damage due to fire caused by fire or explosion impacting areas beyond the building of origin. |
|
Fire, Structural, Water and Sewage Protection of Buildings — Protection of |
OP4 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, adjacent buildings will be exposed to an unacceptable risk of structural damage. |
|
Adjacent Buildings from Structural Damage |
OP4.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, adjacent buildings will be exposed to an unacceptable risk of structural damage caused by settlement of the medium supporting adjacent buildings. |
|
|
OP4.2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of the building, adjacent buildings will be exposed to an unacceptable risk of structural damage caused by collapse of the building or portion of it onto adjacent buildings. |
|
|
OP4.3 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, adjacent buildings will be exposed to an unacceptable risk of structural damage caused by impact of the building on adjacent buildings. |
|
|
OP4.4 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, adjacent buildings will be exposed to an unacceptable risk of structural damage caused by collapse of the excavation. |
|
Fire, Structural, Water and Sewage Protection of Buildings — Water and Sewage Protection of Buildings and Facilities |
OP5 |
An objective of this Code is to limit the probability that, as a result of its design or construction, a building will be exposed to unacceptable risk of damage due to leakage of service water or sewage. |
5. |
Resource Conservation |
OR |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a resource will be exposed to an unacceptable risk of depletion or the capacity of the infrastructure supporting the use, treatment or disposal of the resource will be exposed to an unacceptable risk of being exceeded. |
|
Resource Conservation — Water and Energy Conservation |
OR1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a resource will be exposed to an unacceptable risk of depletion. |
|
|
OR1.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, water resources will be exposed to an unacceptable risk of depletion due to the consumption of water. |
|
|
OR1.2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, a resource will be exposed to an unacceptable risk of depletion due to the consumption of energy. |
|
Resource Conservation — Infrastructure Capacity |
OR2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, the capacity of the infrastructure supporting the use, treatment or disposal of a resource will be exposed to an unacceptable risk of being exceeded. |
|
|
OR2.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, the capacity of the infrastructure supporting the use, treatment or disposal of a resource will be exposed to an unacceptable risk of being exceeded due to excessive demand on the infrastructure. |
6. |
Environmental Integrity |
OE |
An objective of this Code is to limit the probability that, as a result of the design, construction or operation of a building, the natural environment will be exposed to an unacceptable risk of degradation. |
|
Environmental Integrity — Air Quality |
OE1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, the natural environment will be exposed to an unacceptable risk of degradation due to emissions into the air. |
|
|
OE1.1 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, the natural environment will be exposed to an unacceptable risk of degradation due to emissions of greenhouse gases into the air. |
|
|
OE1.2 |
An objective of this Code is to limit the probability that, as a result of the design or construction of a building, the natural environment will be exposed to an unacceptable risk of degradation due to the release of contaminants, other than greenhouse gases, into the air. |
|
Environmental Integrity — Water and Soil Quality |
OE2 |
An objective of this Code is to limit the probability that, as a result of the design, construction or operation of a building, the natural environment will be exposed to an unacceptable risk of degradation due to excessive release of contaminants into water or soil. |
7. |
Conservation of Buildings |
OC |
An objective of this Code is to limit the probability that, as a result of the extension, material alteration or repair of an existing building or a change in use of an existing building, the existing building cannot be acceptably conserved. |
O. Reg. 332/12, Division A, Part 2.
Part 3
Functional Statements
Section |
3.1. |
Application |
|
3.1.1. |
Application of Functional Statements |
|
|
|
Section |
3.2. |
Functional Statements |
|
3.2.1. |
Functional Statements |
Section 3.1. Application
3.1.1. Application of Functional Statements
3.1.1.1. Application of Functional Statements
(1) The functional statements set out in Table 3.2.1.1. apply only to the extent that they relate to compliance with this Code as required in Article 1.2.1.1.
Section 3.2. Functional Statements
3.2.1. Functional Statements
3.2.1.1. Functional Statements
(1) The functional statements of this Code are those set out in Table 3.2.1.1.
Table 3.2.1.1.
Functional Statements
Forming Part of Sentence 3.2.1.1.(1)
Item |
Column 1 Number |
Column 2 Function |
1. |
F01 |
To minimize the risk of accidental ignition. |
|
F02 |
To limit the severity and effects of fire or explosions. |
|
F03 |
To retard the effects of fire on areas beyond its point of origin. |
|
F04 |
To retard failure or collapse due to the effects of fire. |
|
F05 |
To retard the effects of fire on emergency egress facilities. |
|
F06 |
To retard the effects of fire on facilities for notification, suppression and emergency response. |
2. |
F10 |
To facilitate the timely movement of persons to a safe place in an emergency. |
|
F11 |
To notify persons, in a timely manner, of the need to take action in an emergency. |
|
F12 |
To facilitate emergency response. |
|
F13 |
To notify emergency responders, in a timely manner, of the need to take action in an emergency. |
3. |
F20 |
To support and withstand expected loads and forces. |
|
F21 |
To limit or accommodate dimensional change. |
|
F22 |
To limit movement under expected loads and forces. |
|
F23 |
To maintain equipment in place during structural movement. |
4. |
F30 |
To minimize the risk of injury to persons as a result of tripping, slipping, falling, contact, drowning or collision. |
|
F31 |
To minimize the risk of injury to persons as a result of contact with hot surfaces or substances. |
|
F32 |
To minimize the risk of injury to persons as a result of contact with energized equipment. |
|
F33 |
To limit the level of sound of a fire alarm system. |
|
F34 |
To resist or discourage unwanted access or entry. |
|
F35 |
To facilitate the identification of potential intruders. |
|
F36 |
To minimize the risk that persons will be trapped in confined spaces. |
5. |
F40 |
To limit the level of contaminants. |
|
F41 |
To minimize the risk of generation of contaminants. |
|
F42 |
To resist the entry of vermin and insects. |
|
F43 |
To minimize the risk of release of hazardous substances. |
|
F44 |
To limit the spread of hazardous substances beyond their point of release. |
|
F45 |
To minimize the risk of the spread of diseases through communal shower facilities. |
|
F46 |
To minimize the risk of contamination of potable water. |
6. |
F50 |
To provide air suitable for breathing. |
|
F51 |
To maintain appropriate air and surface temperatures. |
|
F52 |
To maintain appropriate relative humidity. |
|
F53 |
To maintain appropriate indoor/outdoor air pressure differences. |
|
F54 |
To limit drafts. |
|
F55 |
To resist the transfer of air through environmental separators. |
|
F56 |
To limit the transmission of airborne sound into a dwelling unit from spaces elsewhere in the building. |
7. |
F60 |
To control the accumulation and pressure of water on and in the ground. |
|
F61 |
To resist the ingress of precipitation, water or moisture from the exterior or from the ground. |
|
F62 |
To facilitate the dissipation of water and moisture from the building. |
|
F63 |
To limit moisture condensation. |
8. |
F70 |
To provide potable water. |
|
F71 |
To provide facilities for personal hygiene. |
|
F72 |
To provide facilities for the sanitary disposal of human and domestic wastes. |
|
F73 |
To facilitate access to and circulation in the building and its facilities by persons with physical or sensory disabilities. |
|
F74 |
To facilitate the use of a building’s facilities by persons with physical or sensory disabilities. |
9. |
F80 |
To resist deterioration resulting from expected service conditions. |
|
F81 |
To minimize the risk of malfunction, interference, damage, tampering, lack of use or misuse. |
|
F82 |
To minimize the risk of inadequate performance due to improper maintenance or lack of maintenance. |
10. |
F101 |
To limit unwanted visual exposure. |
|
F102 |
To provide a view to the outdoors in buildings. |
11. |
F110 |
To control the release of contaminants into soil, groundwater, surface water and air. |
F111 |
To minimize the risk of malfunction, damage or failure of a sewage system. |
|
|
F112 |
To provide adequate treatment of sanitary sewage and effluent. |
F113 |
To minimize the risk of injury as a result of contact with sanitary sewage or partially treated effluent. |
|
12. |
F120 |
To minimize the risk of injury to persons entering or exiting the pool, as a result of unfamiliarity with the pool. |
|
F121 |
To minimize the risk of injury to persons using the pool, as a result of unfamiliarity with the pool. |
|
F122 |
To minimize the risk of contamination of pool water. |
|
F123 |
To facilitate timely response to incapacitated pool users. |
|
F124 |
To minimize the risk of entrapment or injury to a person within the pool, as a result of water, air or vacuum action. |
13. |
F130 |
To limit excessive water consumption. |
|
F131 |
To limit excessive energy consumption. |
|
F132 |
To limit excessive demand on the infrastructure. |
|
F133 |
To limit excessive peak demand on the infrastructure. |
14. |
F140 |
To facilitate the reuse and material alteration and repair of existing buildings. |
15. |
F150 |
To limit excessive emissions of greenhouse gases into the air. |
F151 |
To limit excessive release of contaminants, other than greenhouse gases, into the air. |
O. Reg. 332/12, Division A, Part 3.
DIVISION b
acceptable solutions
Part 1
General
Section |
1.1. |
General |
|
1.1.1. |
Application |
|
1.1.2. |
Climatic Data |
|
|
|
Section |
1.2. |
Reserved |
|
|
|
Section |
1.3. |
Referenced Documents and Organizations |
|
1.3.1. |
Referenced Documents |
|
1.3.2. |
Abbreviations |
Section 1.1. General
1.1.1. Application
1.1.1.1. Application
(1) This Part applies to all buildings covered in this Code.
1.1.2. Climatic Data
1.1.2.1. Climatic and Seismic Design Values
(1) The climatic and seismic values required for the design of buildings under this Code shall be in conformance with the climatic and seismic values provided in MMAH Supplementary Standard SB-1, “Climatic and Seismic Data”.
(2) The outside winter design temperatures determined from MMAH Supplementary Standard SB-1, “Climatic and Seismic Data”, shall be those listed for the January 2.5% values.
1.1.2.2. Depth of Frost Penetration
(1) Depth of frost penetration shall be established on the basis of local experience.
Section 1.2. Reserved
Section 1.3. Referenced Documents and Organizations
1.3.1. Referenced Documents
1.3.1.1. Effective Date
(1) Unless otherwise specified in this Code, the documents referenced in this Code shall include all amendments, revisions and supplements effective to May 1, 2012.
Note: On January 1, 2015, Sentence (1) is amended by striking out “May 1, 2012” at the end and substituting “June 30, 2012”. (See: O. Reg. 191/14, ss. 5, 168 (2))
1.3.1.2. Applicable Editions
(1) Where documents are referenced in this Code, they shall be in the editions designated in Column 2 of Table 1.3.1.2.
Table 1.3.1.2.
Documents Referenced in the Building Code
Forming Part of Sentence 1.3.1.2.(1)
Item |
Column 1 Issuing Agency |
Column 2 Document Number |
Column 3 Title of Document(1) |
Column 4 Code Reference |
1. |
ACGIH |
2010, 27th Edition |
Industrial Ventilation Manual |
6.2.1.1.(1) |
|
|
|
|
6.2.2.4.(1) |
2. |
AISI |
S201-07 |
North American Standard for Cold Formed Steel Framing – Product Data |
9.24.1.2.(1) |
|
|
|
|
|
3. |
ANSI |
A208.1-2009 |
Particleboard |
Table 5.10.1.1. |
|
|
|
|
9.23.14.2.(3) |
|
|
|
|
9.29.9.1.(1) |
|
|
|
|
9.30.2.2.(1) |
4. |
ANSI/ASHRAE |
62.1-2010 |
Ventilation for Acceptable Indoor Air Quality |
6.2.2.1.(2) |
|
|
|
|
6.2.3.8.(15) |
5. |
ANSI/ASHRAE/IESNA |
90.1-2010 |
Energy Standard for Buildings Except Low-Rise Residential Buildings |
6.2.1.1.(1) |
|
|
|
||
6. |
ANSI/CSA |
ANSI Z21.22-1999 / CSA 4.4-M99 (including Addenda 1 and 2) |
Relief Valves for Hot Water Supply Systems |
7.2.10.11.(1) |
|
|
|
|
|
|
|
|
|
|
7. |
APHA/AWWA/WEF |
2005, 21st Edition |
Standard Methods for the Examination of Water and Waste Water |
8.9.2.4.(1)(b) |
|
|
|
|
|
8. |
ASHRAE |
2009 |
Fundamentals |
5.2.1.3.(1) |
|
|
|
|
6.2.1.1.(1) |
9. |
ASHRAE |
2011 |
HVAC Applications |
6.2.1.1.(1) |
10. |
ASHRAE |
2012 |
HVAC Systems and Equipment |
6.2.1.1.(1) |
11. |
ASHRAE |
2010 |
Refrigeration |
6.2.1.1.(1) |
12. |
ASME |
A112.19.8-2007 |
Suction Fittings for Use in Swimming Pools, Wading Pools, Spas, and Hot Tubs |
3.12.4.1.(9) |
|
|
|
|
|
13. |
ASME |
B16.3-2006 |
Malleable Iron Threaded Fittings, Classes 150 and 300 |
7.2.6.6.(1) |
14. |
ASME |
B16.4-2006 |
Gray Iron Threaded Fittings, Classes 125 and 250 |
7.2.6.5.(1) |
|
|
|
|
Table 7.2.11.2. |
15. |
ASME |
B16.12-1998 |
Cast Iron Threaded Drainage Fittings |
7.2.6.3.(1) |
16. |
ASME |
B16.15-2006 |
Cast Bronze Threaded Fittings, Classes 125 and 250 |
7.2.7.3.(1) |
17. |
ASME |
B16.18-2001 |
Cast Copper Alloy Solder Joint Pressure Fittings |
7.2.7.6.(1) |
|
|
|
|
7.2.7.6.(2) |
|
|
|
|
Table 7.2.11.2. |
18. |
ASME |
B16.22-2001 |
Wrought Copper and Copper Alloy Solder Joint Pressure Fittings |
7.2.7.6.(1) |
|
|
|
Table 7.2.11.2. |
|
19. |
ASME |
B16.23-2002 |
Cast Copper Alloy Solder Joint Drainage Fittings: DWV |
7.2.7.5.(1) |
20. |
ASME |
B16.24-2006 |
Cast Copper Alloy Pipe Flanges and Flanged Fittings: Classes 150, 300, 600, 900, 1500 and 2500 |
7.2.7.2.(1) |
|
|
|
|
|
21. |
ASME |
B16.26-2006 |
Cast Copper Alloy Fittings for Flared Copper Tubes |
7.2.7.7.(1) |
|
|
|
|
7.2.7.7.(2) |
|
|
|
|
Table 7.2.11.2. |
22. |
ASME |
B16.29-2007 |
Wrought Copper and Wrought Copper Alloy Solder Joint Drainage Fittings - DWV |
7.2.7.5.(1) |
|
|
|
|
|
23. |
ASME |
B18.6.1-1981 |
Wood Screws (Inch Series) |
Table 5.10.1.1. |
|
|
|
|
9.23.3.1.(3) |
24. |
ASME / CSA |
ASME A17.1-2007 / CSA B44-07 |
Safety Code for Elevators and Escalators |
3.5.2.2.(1) |
|
|
|
Table 4.1.5.11. |
|
|
|
|
|
7.4.3.6.(1) |
25. |
ASME / CSA |
ASME A112.18.1-2012 / CSA B125.1-12 |
Plumbing Supply Fittings |
7.2.10.6.(1) |
|
|
|
7.6.5.2.(1) |
|
26. |
ASME / CSA |
ASME A112.18.2-2005 / CAN/CSA-B125.2-05 |
Plumbing Waste Fittings |
7.2.3.3.(1) |
|
|
|
7.2.10.6.(2) |
|
27. |
ASME / CSA |
ASME A112.19.1-08 / CAN/CSA-B45.2-08 |
Enamelled Cast Iron and Enamelled Steel Plumbing Fixtures |
7.2.2.2.(3) |
|
|
7.2.2.2.(4) |
||
28. |
ASME / CSA |
ASME A112.19.2-08 / CAN/CSA-B45.1-08 |
Ceramic Plumbing Fixtures |
7.2.2.2.(2) |
|
|
|
|
|
29. |
ASME / CSA |
ASME A112.19.3-08 / CAN/CSA-B45.4-08 |
Stainless Steel Plumbing Fixtures |
7.2.2.2.(5) |
|
|
|
|
|
30. |
ASPE |
2005 |
Data Books |
7.6.3.1.(2) |
|
|
|
|
7.7.4.1.(1) |
31. |
ASSE |
ANSI/ASSE 1010-2004 |
Water Hammer Arresters |
7.2.10.15.(1) |
32. |
ASSE |
1051-2009 |
Individual and Branch Type Air Admittance Valves for Sanitary Drainage Systems |
7.2.10.16.(1) |
|
|
|
|
|
33. |
ASTM |
A53 / A53M-07 |
Pipe, Steel, Black and Hot-Dipped, Zinc-Coated Welded and Seamless |
7.2.6.7.(4) |
|
|
|
|
|
34. |
ASTM |
A123 / A123M-08 |
Zinc (Hot Dip Galvanized) Coatings on Iron and Steel Products |
Table 5.10.1.1. |
|
|
|
Table 9.20.16.1. |
|
35. |
ASTM |
A153 / A153M-05 |
Zinc Coating (Hot-Dip) on Iron and Steel Hardware |
Table 5.10.1.1. |
|
|
|
|
Table 9.20.16.1. |
36. |
ASTM |
A252-98 |
Welded and Seamless Steel Pipe Piles |
4.2.3.8.(1) |
37. |
ASTM |
A283 / A283M-03 |
Low and Intermediate Tensile Strength Carbon Steel Plates |
4.2.3.8.(1) |
38. |
ASTM |
A518 / A518M-99 |
Corrosion-Resistant High-Silicon Iron Castings |
7.2.8.1.(1) |
39. |
ASTM |
A653 / A653M-08 |
Steel Sheet, Zinc-Coated (Galvanized) or Zinc-Iron Alloy-Coated (Galvannealed) by the Hot-Dip Process |
Table 5.10.1.1. |
|
|
|
9.3.3.2.(1) |
|
40. |
ASTM |
A792 / A792M-08 |
Steel Sheet, 55% Aluminum-Zinc Alloy-Coated by the Hot-Dip Process |
9.3.3.2.(1) |
|
|
|
|
|
41. |
ASTM |
A1008 / A1008M-09 |
Steel, Sheet, Cold-Rolled, Carbon, Structural, High-Strength Low-Alloy, and High-Strength Low-Alloy with Improved Formability, Solution Hardened, and Bake Hardenable |
4.2.3.8.(1) |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
42. |
ASTM |
A1011 / A1011M-09a |
Steel, Sheet and Strip, Hot-Rolled, Carbon, Structural, High-Strength Low-Alloy, High-Strength Low-Alloy with Improved Formability, and Ultra-High Strength |
4.2.3.8.(1) |
|
|
|
|
|
|
|
|
|
|
43. |
ASTM |
B32-08 |
Solder Metal |
7.2.9.2.(2) |
44. |
ASTM |
B42-02e1 |
Seamless Copper Pipe, Standard Sizes |
7.2.7.1.(1) |
45. |
ASTM |
B43-98 |
Seamless Red Brass Pipe, Standard Sizes |
7.2.7.1.(2) |
46. |
ASTM |
B68-02 |
Seamless Copper Tube, Bright Annealed |
7.2.7.4.(3) |
47. |
ASTM |
B88-03 |
Seamless Copper Water Tube |
7.2.7.4.(1) |
|
|
|
|
Table 7.2.11.2. |
48. |
ASTM |
B306-02 |
Copper Drainage Tube (DWV) |
7.2.7.4.(1) |
49. |
ASTM |
B813-00e1 |
Liquid and Paste Fluxes for Soldering of Copper and Copper Alloy and Tube |
7.2.9.2.(3) |
|
|
|
|
|
50. |
ASTM |
B828-02 |
Making Capillary Joints by Soldering of Copper and Copper Alloy Tube and Fittings |
7.3.2.4.(1) |
|
|
|
|
|
51. |
ASTM |
C4-04e1 |
Clay Drain Tile and Perforated Clay Drain Tile |
Table 5.10.1.1. |
|
|
|
|
9.14.3.1.(1) |
52. |
ASTM |
C27-98 |
Classification for Fire Clay and High-Alumina Refractory Brick |
9.21.3.4.(1) |
|
|
|
|
|
53. |
ASTM |
C73-05 |
Calcium Silicate Brick (Sand-Lime Brick) |
Table 5.10.1.1. |
|
|
|
|
9.20.2.1.(1) |
54. |
ASTM |
C126-99 |
Ceramic Glazed Structural Clay Facing Tile, Facing Brick, and Solid Masonry Units |
Table 5.10.1.1. |
|
|
|
9.20.2.1.(1) |
|
55. |
ASTM |
C212-00 |
Structural Clay Facing Tile |
Table 5.10.1.1. |
|
|
|
|
9.20.2.1.(1) |
56. |
ASTM |
C260-06 |
Air-Entraining Admixtures for Concrete |
9.3.1.8.(1) |
57. |
ASTM |
C411-05 |
Hot-Surface Performance of High-Temperature Thermal Insulation |
6.2.3.4.(3) |
|
|
|
6.2.9.2.(2) |
|
58. |
ASTM |
C412M-05a |
Concrete Drain Tile (Metric) |
Table 5.10.1.1. |
|
|
|
|
9.14.3.1.(1) |
59. |
ASTM |
C444M-03 |
Perforated Concrete Pipe (Metric) |
Table 5.10.1.1. |
|
|
|
|
9.14.3.1.(1) |
60. |
ASTM |
C494 / C494M-08 |
Chemical Admixtures for Concrete |
9.3.1.8.(1) |
61. |
ASTM |
C553-02 |
Mineral Fiber Blanket Thermal Insulation for Commercial and Industrial Applications |
Table 5.10.1.1. |
|
|
|
|
|
62. |
ASTM |
C612-04 |
Mineral Fiber Block and Board Thermal Insulation |
Table 5.10.1.1. |
63. |
ASTM |
C700-07a |
Vitrified Clay Pipe, Extra Strength, Standard Strength and Perforated |
Table 5.10.1.1. |
|
|
|
9.14.3.1.(1) |
|
64. |
ASTM |
C834-05 |
Latex Sealants |
Table 5.10.1.1. |
|
|
|
|
9.27.4.2.(2) |
65. |
ASTM |
C920-05 |
Elastomeric Joint Sealants |
Table 5.10.1.1. |
|
|
|
|
9.27.4.2.(2) |
66. |
ASTM |
C954-07 |
Steel Drill Screws for the Application of Gypsum Panel Products or Metal Plaster Bases to Steel Studs from 0.033 in. (0.84 mm) to 0.112 in. (2.84 mm) in Thickness |
9.24.1.4.(1) |
|
|
|
|
|
|
|
|
|
|
67. |
ASTM |
C991-03 |
Flexible Fibrous Glass Insulation for Metal Buildings |
Table 5.10.1.1. |
68. |
ASTM |
C1002-07 |
Steel Self-Piercing Tapping Screws for the Application of Gypsum Panel Products or Metal Plaster Bases to Wood Studs or Steel Studs |
Table 5.10.1.1. |
|
|
|
9.24.1.4.(1) |
|
|
|
|
9.29.5.7.(1) |
|
69. |
ASTM |
C1053-00 |
Borosilicate Glass Pipe and Fittings for Drain, Waste and Vent (DWV) Applications |
7.2.8.1.(1) |
|
|
|
|
|
70. |
ASTM |
C1177 / C1177M-08 |
Glass Mat Gypsum Substrate for Use as Sheathing |
Table 5.10.1.1. |
|
|
|
|
Table 9.23.16.2.A. |
71. |
ASTM |
C1178 / C1178M-08 |
Coated Glass Mat Water-Resistant Gypsum Backing Panel |
Table 5.10.1.1. |
|
|
|
|
9.29.5.2.(1) |
72. |
ASTM |
C1184-05 |
Structural Silicone Sealants |
Table 5.10.1.1. |
|
|
|
|
9.27.4.2.(2) |
73. |
ASTM |
C1311-02 |
Solvent Release Sealants |
Table 5.10.1.1. |
|
|
|
|
9.27.4.2.(2) |
74. |
ASTM |
C1330-02 |
Cylindrical Sealant Backing for Use with Cold Liquid-Applied Sealants |
Table 5.10.1.1. |
|
|
|
9.27.4.2.(3) |
|
75. |
ASTM |
C1396 / C1396M-06a |
Gypsum Board |
3.1.5.12.(4) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
Table 9.23.17.2.A. |
|
|
|
|
9.29.5.2.(1) |
|
|
|
|
Table 9.29.5.3. |
76. |
ASTM |
D323-08 |
Vapor Pressure of Petroleum Products (Reid Method) |
1.4.1.2.(1) of Division A |
|
|
|
|
|
77. |
ASTM |
D374-99 |
Thickness of Solid Electrical Insulation |
3.15.4.1.(1) |
78. |
ASTM |
D568-77 |
Rate of Burning and/or Extent and Time of Burning of Flexible Plastics in a Vertical Position |
3.15.4.1.(1) |
|
|
|
|
|
79. |
ASTM |
D635-06 |
Rate of Burning and/or Extent and Time of Burning of Plastics in a Horizontal Position |
3.15.4.1.(1) |
|
|
|
|
|
80. |
ASTM |
D2178-04 |
Asphalt Glass Felt Used in Roofing and Waterproofing |
Table 5.10.1.1. |
81. |
ASTM |
D2898-08 |
Accelerated Weathering of Fire-Retardant-Treated Wood for Fire Testing |
3.1.5.5.(4) |
|
|
|
3.1.5.25.(1) |
|
|
|
|
|
3.2.3.7.(4) |
82. |
ASTM |
D3261-03 |
Butt Heat Fusion Polyethylene (PE) Plastic Fittings for Polyethylene (PE) Plastic Pipe and Tubing |
7.2.5.5.(3) |
|
|
|
|
|
83. |
ASTM |
E90-04 |
Laboratory Measurement of Airborne Sound Transmission Loss of Building Partitions and Elements |
5.9.1.1.(1) |
|
|
|
9.11.1.1.(1) |
|
84. |
ASTM |
E96 / E96M-05 |
Water Vapour Transmission of Materials |
5.5.1.2.(3) |
|
|
|
|
9.25.4.2.(1) |
|
|
|
|
9.25.5.1.(1) |
|
|
|
|
9.30.1.2.(1) |
85. |
ASTM |
E336-05 |
Measurement of Airborne Sound Attenuation Between Rooms in Buildings |
5.9.1.1.(1) |
|
|
|
9.11.1.1.(1) |
|
86. |
ASTM |
E413-04 |
Classification for Rating Sound Insulation |
5.9.1.1.(1) |
|
|
|
|
9.11.1.1.(1) |
87. |
ASTM |
E2190-08 |
Insulating Glass Unit Performance and Evaluation |
Table 5.10.1.1. |
|
|
|
|
9.6.1.2.(1) |
88. |
ASTM |
F476-84 |
Security of Swinging Door Assemblies |
9.7.5.2.(2) |
89. |
ASTM |
F628-08 |
Acrylonitrile-Butadiene-Styrene (ABS) Schedule 40 Plastic Drain, Waste, and Vent Pipe With a Cellular Core |
7.2.5.10.(1) |
|
|
|
7.2.5.12.(1) |
|
|
|
|
|
7.2.5.12.(2) |
90. |
ASTM |
F714-08 |
Polyethylene (PE) Plastic Pipe (SDR-PR) Based on Outside Diameter |
7.2.5.6.(1) |
|
|
|
|
|
90.1 |
ASTM |
F1667-05 |
Driven Fasteners: Nails, Spikes and Staples |
9.23.3.1.(1) |
|
|
|
|
9.26.2.2.(1) |
|
|
|
|
9.29.5.6.(1) |
91. |
AWPA |
M4-08 |
Care of Preservative-Treated Wood Products |
4.2.3.2.(2) |
|
|
|
|
Table 5.10.1.1. |
92. |
AWS |
ANSI/AWS A5.8 / 5.8M-2004 |
Specification for Filler Metals for Brazing and Braze Welding |
7.2.9.2.(4) |
|
|
|
||
93. |
AWWA |
ANSI/AWWA C104 / A21.4-2008 |
Cement-Mortar Lining for Ductile-Iron Pipe and Fittings |
7.2.6.4.(2) |
|
|
|
Table 7.2.11.2. |
|
94. |
AWWA |
ANSI/AWWA C110 / A21.10-2008 |
Ductile-Iron and Gray-Iron Fittings |
7.2.6.4.(3) |
|
|
|
Table 7.2.11.2. |
|
95. |
AWWA |
ANSI/AWWA C111 / A21.11-2007 |
Rubber-Gasket Joints for Ductile-Iron Pressure Pipe and Fittings |
7.2.6.4.(4) |
|
|
Table 7.2.11.2. |
||
96. |
AWWA |
ANSI/AWWA C151 / A21.51-2002 |
Ductile-Iron Pipe, Centrifugally Cast, for Water |
7.2.6.4.(1) |
|
|
|
Table 7.2.11.2. |
|
97. |
BCMOH |
Version 2, 21st Sept, 2007 |
Sewerage System Standard Practice Manual |
8.7.8.3.(2) |
|
|
|
8.7.8.3.(3) |
|
98. |
BNQ |
BNQ 3624-115-2007 |
Polyethylene (PE) Pipe and Fittings - Flexible Pipes for Drainage - Characteristics and Test Methods |
Table 5.10.1.1. |
|
|
|
9.14.3.1.(1) |
|
99. |
BNQ |
CAN/BNQ 3680-600-2009 |
Onsite Residential Wastewater Treatment Technologies |
8.6.2.2.(5) |
Table 8.6.2.2. |
||||
100. |
CCBFC |
NRCC 38730 1997 |
Model National Energy Code of Canada for Buildings |
6.2.1.1.(1) |
101. |
CCBFC |
NRCC 54435 2011 |
National Energy Code of Canada for Buildings |
6.2.1.1.(1) |
102. |
CCBFC |
NRCC 38726 1995 |
National Building Code of Canada |
1.3.1.2.(3) of Division A |
|
|
|
|
|
103. |
CCBFC |
NRCC 53301 2010 |
National Building Code of Canada |
2.4.2.1.(2) of Division C |
|
|
|
|
|
104. |
CCBFC |
NRCC 53302 2010 |
National Plumbing Code of Canada |
2.4.2.1.(2) of Division C |
|
|
|
|
|
105. |
CCBFC |
NRCC 53303 2010 |
National Fire Code of Canada |
3.3.1.2.(1) |
|
|
|
|
3.3.5.2.(1) |
|
|
|
|
6.2.2.5.(1) |
106. |
CCBFC |
NRCC 38732 1995 |
National Farm Building Code of Canada |
1.3.1.2.(1) to (5) of Division A |
|
|
|
|
|
107. |
CGSB |
CAN/CGSB-1.501-M89 |
Method of Permeance of Coated Wallboard |
5.5.1.2.(2) |
|
|
|
|
9.25.4.2.(5) |
108. |
CGSB |
CAN/CGSB-7.2-94 |
Adjustable Steel Columns |
9.17.3.4.(1) |
109. |
CGSB |
CAN/CGSB-10.3-92 |
Air Setting Refractory Mortar |
9.21.3.4.(2) |
|
|
|
|
9.21.3.9.(1) |
|
|
|
|
9.22.2.2.(2) |
110. |
CGSB |
CAN/CGSB-11.3-M87 |
Hardboard |
Table 5.10.1.1. |
|
|
|
|
9.27.9.1.(2) |
|
|
|
|
9.29.7.1.(1) |
|
|
|
|
9.30.2.2.(1) |
111. |
CGSB |
CAN/CGSB-11.5-M87 |
Hardboard, Precoated, Factory Finished, for Exterior Cladding |
Table 5.10.1.1. |
|
|
|
9.27.9.1.(1) |
|
112. |
CGSB |
CAN/CGSB-12.1-M90 |
Tempered or Laminated Safety Glass |
3.3.1.19.(2) |
|
|
|
|
3.4.6.15.(1) |
|
|
|
|
3.4.6.15.(3) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
9.6.1.2.(2) |
|
|
|
|
9.6.1.4.(1) |
|
|
|
|
9.8.8.7.(1) |
113. |
CGSB |
CAN/CGSB-12.2-M91 |
Flat, Clear Sheet Glass |
Table 5.10.1.1. |
|
|
|
|
9.6.1.2.(1) |
114. |
CGSB |
CAN/CGSB-12.3-M91 |
Flat, Clear Float Glass |
Table 5.10.1.1. |
|
|
|
|
9.6.1.2.(1) |
115. |
CGSB |
CAN/CGSB-12.4-M91 |
Heat Absorbing Glass |
Table 5.10.1.1. |
|
|
|
|
9.6.1.2.(1) |
116. |
CGSB |
CAN/CGSB-12.5-M86 |
Mirrors, Silvered |
Table 5.10.1.1. |
|
|
|
|
9.6.1.2.(3) |
117. |
CGSB |
CAN/CGSB-12.8-97 |
Insulating Glass Units |
Table 5.10.1.1. |
|
|
|
|
9.6.1.2.(1) |
118. |
CGSB |
CAN/CGSB-12.10-M76 |
Glass, Light and Heat Reflecting |
Table 5.10.1.1. |
|
|
|
|
9.6.1.2.(1) |
119. |
CGSB |
CAN/CGSB-12.11-M90 |
Wired Safety Glass |
3.3.1.19.(2) |
|
|
|
|
3.4.6.15.(1) |
|
|
|
|
3.4.6.15.(3) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
9.6.1.2.(2) |
|
|
|
|
9.6.1.4.(1) |
|
|
|
|
9.8.8.7.(1) |
120. |
CGSB |
CAN/CGSB-12.20-M89 |
Structural Design of Glass for Buildings |
4.3.6.1.(1) |
|
|
|
|
9.6.1.3.(1) |
121. |
CGSB |
CAN/CGSB-19.22-M89 |
Mildew Resistant Sealing Compound for Tubs and Tile |
9.29.10.5.(1) |
122. |
CGSB |
CAN/CGSB-34.9-M94 |
Asbestos-Cement Sewer Pipe |
7.2.5.1.(2) |
123. |
CGSB |
CAN/CGSB-34.22-94 |
Asbestos-Cement Drain Pipe |
Table 5.10.1.1. |
|
|
|
|
7.2.5.1.(1) |
|
|
|
|
9.14.3.1.(1) |
124. |
CGSB |
CAN/CGSB-34.23-94 |
Asbestos-Cement House Connection Sewer Pipe |
7.2.5.1.(2) |
125. |
CGSB |
CAN/CGSB-37.1-M89 |
Chemical Emulsified Type, Emulsified Asphalt for Dampproofing |
Table 5.10.1.1. |
|
|
|
9.13.2.2.(1) |
|
126. |
CGSB |
CAN/CGSB-37.2-M88 |
Emulsified Asphalt, Mineral Colloid Type, Unfilled, for Dampproofing and Waterproofing and for Roof Coatings |
Table 5.10.1.1. |
|
|
|
9.13.2.2.(1) |
|
|
|
|
|
9.13.3.2.(1) |
127. |
CGSB |
CAN/CGSB-37.3-M89 |
Application of Emulsified Asphalts for Dampproofing or Waterproofing |
5.8.2.3.(1) |
|
|
|
Table 5.10.1.1. |
|
|
|
|
|
9.13.2.3.(1) |
|
|
|
|
9.13.3.3.(1) |
128. |
CGSB |
CAN/CGSB-37.4-M89 |
Fibrated, Cutback Asphalt, Lap Cement for Asphalt Roofing |
Table 5.10.1.1. |
|
|
|
9.26.2.1.(1) |
|
129. |
CGSB |
CAN/CGSB-37.5-M89 |
Cutback Asphalt Plastic Cement |
Table 5.10.1.1. |
|
|
|
|
9.26.2.1.(1) |
130. |
CGSB |
37-GP-6Ma-1983 |
Asphalt, Cutback, Unfilled, for Dampproofing |
5.8.2.2.(6) |
|
|
|
|
5.8.2.2.(7) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
9.13.2.2.(1) |
131. |
CGSB |
CAN/CGSB-37.8-M88 |
Asphalt, Cutback, Filled, for Roof Coating |
Table 5.10.1.1. |
|
|
|
|
9.26.2.1.(1) |
132. |
CGSB |
37-GP-9Ma-1983 |
Primer, Asphalt, Unfilled, for Asphalt Roofing, Dampproofing and Waterproofing |
Table 5.10.1.1. |
|
|
|
9.26.2.1.(1) |
|
133. |
CGSB |
37-GP-12Ma-1984 |
Application of Unfilled Cutback Asphalt for Dampproofing |
5.8.2.3.(2) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
9.13.2.3.(1) |
134. |
CGSB |
CAN/CGSB-37.16-M89 |
Filled, Cutback Asphalt for Dampproofing and Waterproofing |
Table 5.10.1.1. |
|
|
|
9.13.2.2.(1) |
|
|
|
|
|
9.13.3.2.(1) |
135. |
CGSB |
37-GP-18Ma-1985 |
Tar, Cutback, Unfilled, for Dampproofing |
5.8.2.2.(6) |
|
|
|
|
5.8.2.2.(7) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
9.13.2.2.(1) |
136. |
CGSB |
37-GP-21M-1985 |
Tar, Cutback, Fibrated, For Roof Coating |
Table 5.10.1.1. |
|
|
|
|
9.26.2.1.(1) |
137. |
CGSB |
CAN/CGSB-37.22-M89 |
Application of Unfilled, Cutback Tar Foundation Coating for Dampproofing |
5.8.2.3.(2) |
|
|
|
Table 5.10.1.1. |
|
|
|
|
|
9.13.2.3.(1) |
138. |
CGSB |
37-GP-36M-1976 |
Application of Filled Cutback Asphalt for Dampproofing and Waterproofing |
5.8.2.3.(1) |
|
|
|
Table 5.10.1.1. |
|
139. |
CGSB |
37-GP-37M-1977 |
Application of Hot Asphalt for Dampproofing or Waterproofing |
5.8.2.3.(1) |
|
|
|
Table 5.10.1.1. |
|
140. |
CGSB |
CAN/CGSB-37.50-M89 |
Hot Applied, Rubberized Asphalt for Roofing and Waterproofing |
Table 5.10.1.1. |
|
|
|
9.26.2.1.(1) |
|
141. |
CGSB |
CAN/CGSB-37.51-M90 |
Application for Hot Applied Rubberized Asphalt for Roofing and Waterproofing |
5.6.1.2.(1) |
|
|
|
5.8.2.3.(1) |
|
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
9.26.15.1.(1) |
142. |
CGSB |
37-GP-52M-1984 |
Roofing and Waterproofing Membrane, Sheet Applied, Elastomeric |
Table 5.10.1.1. |
|
|
|
9.26.2.1.(1) |
|
143. |
CGSB |
CAN/CGSB-37.54-95 |
Polyvinyl Chloride Roofing and Waterproofing Membrane |
Table 5.10.1.1. |
|
|
|
|
9.26.2.1.(1) |
144. |
CGSB |
37-GP-55M-1979 |
Application of Sheet Applied Flexible Polyvinyl Chloride Roofing Membrane |
5.6.1.2.(1) |
|
|
|
Table 5.10.1.1. |
|
|
|
|
|
9.26.16.1.(1) |
145. |
CGSB |
37-GP-56M-1985 |
Membrane, Modified, Bituminous, Prefabricated, and Reinforced for Roofing |
Table 5.10.1.1. |
|
|
|
9.13.2.2.(1) |
|
|
|
|
|
9.13.3.2.(1) |
|
|
|
|
9.26.2.1.(1) |
146. |
CGSB |
37-GP-64M-1977 |
Mat Reinforcing, Fibrous Glass, for Membrane Waterproofing Systems and Built-up Roofing |
Table 5.10.1.1. |
147. |
CGSB |
41-GP-6M-1983 |
Sheets, Thermosetting Polyester Plastics, Glass Fiber Reinforced |
Table 5.10.1.1. |
9.26.2.1.(1) |
||||
148. |
CGSB |
CAN/CGSB-41.24-95 |
Rigid Vinyl Siding, Soffits and Fascia |
Table 5.10.1.1. |
|
|
|
|
9.27.12.1.(1) |
149. |
CGSB |
CAN/CGSB-51.25-M87 |
Thermal Insulation, Phenolic, Faced |
Table 9.23.16.2.A. |
|
|
|
|
9.25.2.2.(1) |
150. |
CGSB |
51-GP-27M-1979 |
Thermal Insulation, Polystyrene, Loose Fill |
9.25.2.2.(1) |
151. |
CGSB |
CAN/CGSB-51.32-M77 |
Sheathing, Membrane, Breather Type |
Table 5.10.1.1. |
|
|
|
|
9.20.13.9.(1) |
|
|
|
|
9.26.2.1.(1) |
|
|
|
|
9.27.3.2.(1) |
152. |
CGSB |
CAN/CGSB-51.33-M89 |
Vapour Barrier, Sheet, Excluding Polyethylene, for Use in Building Construction |
Table 5.10.1.1. |
|
|
|
9.25.4.2.(4) |
|
153. |
CGSB |
CAN/CGSB-51.34-M86 (amended 1988) |
Vapour Barrier, Polyethylene Sheet for Use in Building Construction |
Table 5.10.1.1. |
|
|
9.13.2.2.(1) |
||
|
|
|
|
9.13.4.2.(1) |
|
|
|
|
9.18.6.2.(1) |
|
|
|
|
9.25.3.2.(2) |
|
|
|
|
9.25.3.6.(1) |
|
|
|
|
9.25.4.2.(3) |
154. |
CGSB |
CAN/CGSB-82.6-M86 |
Doors, Mirrored Glass, Sliding or Folding, Wardrobe |
9.6.1.2.(2) |
155. |
CGSB |
CAN/CGSB-93.1-M85 |
Sheet, Aluminum Alloy, Prefinished Residential |
Table 5.10.1.1. |
|
|
|
|
9.27.11.1.(4) |
156. |
CGSB |
CAN/CGSB-93.2-M91 |
Prefinished Aluminum Siding, Soffits and Facsia for Residential Use |
3.2.3.6.(4) |
|
|
|
Table 5.10.1.1. |
|
|
|
|
|
9.10.14.5.(8) |
|
|
|
|
9.10.14.5.(11) |
|
|
|
|
9.10.15.5.(7) |
|
|
|
|
9.10.15.5.(10) |
|
|
|
|
9.27.11.1.(3) |
157. |
CGSB |
CAN/CGSB-93.3-M91 |
Prefinished Galvanized and Aluminum-Zinc Alloy Steel Sheet for Residential Use |
Table 5.10.1.1. |
|
|
|
9.27.11.1.(2) |
|
158. |
CGSB |
CAN/CGSB-93.4-92 |
Galvanized Steel and Aluminum-Zinc Alloy Coated Steel Siding, Soffits and Fascia, Prefinished, Residential |
Table 5.10.1.1. |
|
|
|
9.27.11.1.(1) |
|
159. |
CSA |
CAN/CSA-6.19-01 |
Residential Carbon Monoxide Alarming Devices |
6.2.12.3.(1) |
|
|
|
|
9.33.4.3.(1) |
160. |
CSA |
A23.1-09 |
Concrete Materials and Methods of Concrete Construction |
4.2.3.6.(1) |
|
|
|
|
4.2.3.9.(1) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
9.3.1.1.(1) |
|
|
|
|
9.3.1.1.(4) |
|
|
|
|
9.3.1.3.(1) |
|
|
|
|
9.3.1.4.(1) |
|
|
|
|
9.39.1.4.(1) |
161. |
CSA |
CAN/CSA-A23.3-04 |
Design of Concrete Structures |
Table 4.1.8.9. |
|
|
|
|
4.3.3.1.(1) |
162. |
CSA |
A60.1-M1976 |
Vitrified Clay Pipe |
7.2.5.4.(1) |
163. |
CSA |
A60.3-M1976 |
Vitrified Clay Pipe Joints |
7.2.5.4.(2) |
164. |
CSA |
CAN/CSA-A82.1-M87 |
Burned Clay Brick (Solid Masonry Units Made From Clay or Shale) |
Table 5.10.1.1. |
9.20.2.1.(1) |
||||
165. |
CSA |
A82.4-M1978 |
Structural Clay Load-Bearing Wall Tile |
Table 5.10.1.1. |
|
|
|
|
9.20.2.1.(1) |
166. |
CSA |
A82.5-M1978 |
Structural Clay Non-Load-Bearing Tile |
Table 5.10.1.1. |
|
|
|
|
9.20.2.1.(1) |
167. |
CSA |
CAN3-A82.8-M78 |
Hollow Clay Brick |
Table 5.10.1.1. |
|
|
|
|
9.20.2.1.(1) |
168. |
CSA |
CAN/CSA-A82.27-M91 |
Gypsum Board |
3.1.5.12.(4) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
Table 9.23.16.2.A. |
|
|
|
|
9.29.5.2.(1) |
169. |
CSA |
A82.30-M1980 |
Interior Furring, Lathing and Gypsum Plastering |
Table 5.10.1.1. |
|
|
|
|
9.29.4.1.(1) |
170. |
CSA |
A82.31-M1980 |
Gypsum Board Application |
3.2.3.6.(4) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
9.10.12.4.(3) |
|
|
|
|
9.29.5.1.(2) |
171. |
CSA |
CAN3-A93-M82 |
Natural Airflow Ventilators for Buildings |
Table 5.10.1.1. |
|
|
|
|
9.19.1.2.(5) |
172. |
CSA |
A123.1-05 /A123.5-05 |
Asphalt Shingles Made from Organic Felt and Surfaced with Mineral Granules / Asphalt Shingles Made from Glass Felt and Surfaced with Mineral Granules |
Table 5.10.1.1. |
|
|
|
9.26.2.1.(1) |
|
|
|
|
|
|
173. |
CSA |
CAN/CSA-A123.2-03 |
Asphalt Coated Roofing Sheets |
Table 5.10.1.1. |
|
|
|
|
9.26.2.1.(1) |
174. |
CSA |
A123.3-05 |
Asphalt Saturated Organic Roofing Felt |
Table 5.10.1.1. |
|
|
|
|
9.26.2.1.(1) |
175. |
CSA |
CAN/CSA-A123.4-04 |
Asphalt for Constructing Built-Up Roof Coverings and Waterproofing Systems |
Table 5.10.1.1. |
|
|
|
9.13.2.2.(1) |
|
|
|
|
|
9.13.3.2.(1) |
|
|
|
|
9.26.2.1.(1) |
176. |
CSA |
A123.17-05 |
Asphalt Glass Felt Used in Roofing and Waterproofing |
Table 5.10.1.1. |
|
|
|
|
9.26.2.1.(1) |
177. |
CSA |
CAN3-A123.51-M85 |
Asphalt Shingle Application on Roof Slopes 1:3 and Steeper |
5.6.1.2.(1) |
|
|
|
Table 5.10.1.1. |
|
|
|
|
|
9.26.1.2.(1) |
178. |
CSA |
CAN3-A123.52-M85 |
Asphalt Shingle Application on Roof Slopes 1:6 to Less than 1:3 |
5.6.1.2.(1) |
|
|
|
Table 5.10.1.1. |
|
|
|
|
|
9.26.1.2.(1) |
179. |
CSA |
CAN/CSA-A165.1-04 |
Concrete Block Masonry Units |
Table 5.10.1.1. |
|
|
|
|
9.15.2.2.(1) |
|
|
|
|
9.17.5.1.(1) |
|
|
|
|
9.20.2.1.(1) |
|
|
|
|
9.20.2.6.(1) |
180. |
CSA |
CAN/CSA-A165.2-04 |
Concrete Brick Masonry Units |
Table 5.10.1.1. |
|
|
|
|
9.20.2.1.(1) |
181. |
CSA |
CAN/CSA-A165.3-04 |
Prefaced Concrete Masonry Units |
Table 5.10.1.1. |
|
|
|
|
9.20.2.1.(1) |
182. |
CSA |
CAN3-A165.4-M85 |
Autoclaved Cellular Units |
Table 5.10.1.1. |
|
|
|
|
9.20.2.1.(1) |
183. |
CSA |
CAN/CSA-A179-04 |
Mortar and Grout for Unit Masonry |
Table 5.10.1.1. |
|
|
|
|
9.15.2.2.(3) |
|
|
|
|
9.20.3.1.(1) |
184. |
CSA |
CAN/CSA-A220.0-06 |
Performance of Concrete Roof Tiles |
Table 5.10.1.1. |
|
|
|
|
9.26.2.1.(1) |
185. |
CSA |
CAN/CSA-A220.1-06 |
Installation of Concrete Roof Tiles |
Table 5.10.1.1. |
|
|
|
|
9.26.17.1.(1) |
186. |
CSA |
CAN/CSA-A257 Series-03 |
Standards for Concrete Pipe and Manhole Sections |
7.2.5.3.(1) |
|
|
|
|
|
187. |
CSA |
A257.4-03 |
Precast Reinforced Circular Concrete Manhole Sections, Catch Basins, and Fittings |
7.2.5.3.(5) |
|
|
|
|
|
188. |
CSA |
A277-08 |
Procedure for Factory Certification of Buildings |
9.1.1.9.(1) |
|
|
|
|
3.1.1.1.(2) of Division C |
|
|
|
|
3.2.4.1.(3) of Division C |
189. |
CSA |
CAN/CSA-A324-M88 |
Clay Flue Liners |
9.21.3.3.(1) |
190. |
CSA |
CAN/CSA-A371-04 |
Masonry Construction for Buildings |
5.6.1.2.(2) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
9.15.2.2.(3) |
|
|
|
|
9.20.3.2.(7) |
|
|
|
|
9.20.15.2.(1) |
191. |
CSA |
CAN/CSA-A405-M87 |
Design and Construction of Masonry Chimneys and Fireplaces |
9.21.3.5.(1) |
|
|
|
9.22.1.4.(7) |
|
|
|
|
|
9.22.5.2.(2) |
192. |
CSA |
AAMA/WDMA/CSA 101/I.S.2/A440-08 |
NAFS – North American Fenestration Standard/Specification for Windows, Doors, and Skylights |
5.10.2.2.(1) |
|
|
Table 9.7.3.3. |
||
|
|
|
|
9.7.4.1.(1) |
|
|
|
|
9.7.4.2.(1) |
|
|
|
|
9.7.4.3.(2) |
|
|
|
|
9.7.5.1.(1) |
|
|
|
|
9.7.5.3.(1) |
193. |
CSA |
A440.2-09 / A440.3-09 |
Fenestration Energy Performance / User Guide to CSA A440.2-09, Fenestration Energy Performance |
Table 9.7.3.3. |
|
|
|
12.3.1.2.(1) |
|
194. |
CSA |
CAN/CSA-A440.4-07 |
Window, Door and Skylight Installation |
9.7.6.1.(1) |
195. |
CSA |
A440S1-09 |
Canadian Supplement to AAMA/WDMA/CSA 101/I.S.2/A440, NAFS – North American Fenestration Standard/Specification for Windows, Doors, and Skylights |
5.10.2.2.(1) |
|
|
|
9.7.4.2.(1) |
|
|
|
|
9.7.4.3.(1) |
|
196. |
CSA |
CAN/CSA-A660-04 |
Certification of Manufacturers of Steel Building Systems |
4.3.4.3.(1) |
197. |
CSA |
CAN/CSA-A3001-08 |
Cementitious Materials for Use in Concrete |
Table 5.10.1.1. |
|
|
|
|
9.3.1.2.(1) |
|
|
|
|
9.28.2.1.(1) |
198. |
CSA |
CAN/CSA-B45.0-02 |
General Requirements for Plumbing Fixtures |
7.6.4.2.(1) |
199. |
CSA |
CAN/CSA-B45.5-02 |
Plastic Plumbing Fixtures |
7.2.2.2.(6) |
200. |
CSA |
CAN/CSA-B45.9-02 |
Macerating Systems and Related Components |
7.2.2.2.(8) |
201. |
CSA |
CAN/CSA-B45.10-01 |
Hydromassage Bathtubs |
7.2.2.2.(7) |
202. |
CSA |
B52-05 |
Mechanical Refrigeration Code |
6.2.2.4.(4) |
203. |
CSA |
CAN/CSA-B64.0-07 |
Definitions, General Requirements, and Test Methods for Vacuum Breakers and Backflow Preventers |
7.2.10.10.(1) |
|
|
|
|
|
204. |
CSA |
CAN/CSA-B64.1.1-07 |
Atmospheric Vacuum Breakers (AVB) |
7.2.10.10.(1) |
205. |
CSA |
CAN/CSA-B64.1.2-07 |
Pressure Vacuum Breakers (PVB) |
7.2.10.10.(1) |
206. |
CSA |
CAN/CSA-B64.2-07 |
Hose Connection Vacuum Breakers (HCVB) |
7.2.10.10.(1) |
207. |
CSA |
CAN/CSA-B64.2.1-07 |
Hose Connection Vacuum Breakers (HCVB) with Manual Draining Feature |
7.2.10.10.(1) |
|
|
|
|
|
208. |
CSA |
CAN/CSA-B64.2.2-07 |
Hose Connection Vacuum Breakers (HCVB) with Automatic Draining Feature |
7.2.10.10.(1) |
|
|
|
|
|
209. |
CSA |
CAN/CSA-B64.3-07 |
Dual Check Valve Backflow Preventers with Atmospheric Port (DCAP) |
7.2.10.10.(1) |
|
|
|
7.6.2.5.(4) |
|
210. |
CSA |
CAN/CSA-B64.4-07 |
Reduced Pressure Principle Backflow Preventers (RP) |
7.2.10.10.(1) |
211. |
CSA |
CAN/CSA-B64.4.1-07 |
Reduced Pressure Principle Backflow Preventers for Fire Protection Systems (RPF) |
7.6.2.4.(2) |
|
|
|
Table 7.6.2.4. |
|
|
|
|
|
7.6.2.4.(4) |
212. |
CSA |
CAN/CSA-B64.5-07 |
Double Check Valve Backflow Preventers (DCVA) |
7.2.10.10.(1) |
213. |
CSA |
CAN/CSA-B64.5.1-07 |
Double Check Valve Backflow Preventers for Fire Protection Systems (DCVAF) |
7.6.2.4.(2) |
|
|
|
Table 7.6.2.4. |
|
214. |
CSA |
CAN/CSA-B64.6-07 |
Dual Check Valve Backflow Preventers (DuC) |
7.2.10.10.(1) |
|
|
|
|
7.6.2.6.(3) |
|
|
|
|
7.7.1.1.(3) |
215. |
CSA |
CAN/CSA-B64.6.1-07 |
Dual Check Valve Backflow Preventers for Fire Protection Systems (DuCF) |
7.6.4.2.(2) |
|
|
|
Table 7.6.2.4. |
|
216. |
CSA |
CAN/CSA-B64.7-07 |
Laboratory Faucet Vacuum Breakers (LFVB) |
7.2.10.10.(1) |
217. |
CSA |
CAN/CSA-B64.8-07 |
Dual Check Valve Backflow Preventers with Intermediate Vent (DuCV) |
7.2.10.10.(1) |
|
|
|
|
|
218. |
CSA |
CAN/CSA-B64.9-07 |
Single Check Valve Backflow Preventers for Fire Protection Systems (SCVAF) |
7.6.2.4.(2) |
|
|
|
Table 7.6.2.4. |
|
219. |
CSA |
B64.10-07 |
Selection and Installation of Backflow Preventers |
7.2.10.10.(1) |
|
|
|
|
7.6.2.3.(1) |
|
|
|
|
Table 7.6.2.4. |
|
|
|
|
7.6.2.6.(1) |
220. |
CSA |
B66-10 |
Design, Material, and Manufacturing Requirements for Prefabricated Septic Tanks and Sewage Holding Tanks |
8.2.2.2.(1) |
|
|
|
8.2.2.2.(2) |
|
|
|
|
|
8.2.2.2.(3) |
|
|
|
|
8.2.2.3.(7) |
|
|
|
|
8.2.2.3.(11) |
221. |
CSA |
B70-06 |
Cast Iron Soil Pipe, Fittings and Means of Joining |
7.2.6.1.(1) |
|
|
|
|
7.4.6.4.(2) |
222. |
CSA |
B111-1974 |
Wire Nails, Spikes and Staples |
9.23.3.1.(1) |
|
|
|
|
9.26.2.2.(1) |
|
|
|
|
9.29.5.6.(1) |
223. |
CSA |
CSA B125.3-12 |
Plumbing Fittings |
7.2.10.6.(1) |
|
|
|
|
7.2.10.10.(2) |
|
|
|
|
7.6.5.2.(2) |
224. |
CSA |
CAN/CSA-B127.1-99 |
Asbestos Cement Drain, Waste and Vent Pipe and Pipe Fittings |
7.2.5.1.(1) |
|
|
|
7.2.6.2.(1) |
|
225. |
CSA |
B127.2-M1977 |
Components for Use in Asbestos Cement Building Sewer Systems |
7.2.5.1.(2) |
|
|
|
7.2.6.2.(1) |
|
226. |
CSA |
CAN/CSA-B128.1-06 |
Design and Installation of Non-Potable Water Systems |
7.7.2.1.(2) |
|
|
|
|
7.7.4.1.(1) |
227. |
CSA |
CAN/CSA-B137.1-05 |
Polyethylene (PE) Pipe, Tubing and Fittings for Cold Water Pressure Services |
7.2.5.5.(1) |
|
|
|
Table 7.2.11.2. |
|
228. |
CSA |
CAN/CSA-B137.2-05 |
Polyvinylchloride (PVC) Injection-Moulded Gasketed Fittings for Pressure Applications |
7.2.5.8.(1) |
|
|
|
7.2.5.10.(1) |
|
|
|
|
|
Table 7.2.11.2. |
229. |
CSA |
CAN/CSA-B137.3-05 |
Rigid Polyvinylchloride (PVC) Pipe for Pressure Applications |
7.2.5.8.(1) |
|
|
|
7.2.5.10.(1) |
|
|
|
|
|
Table 7.2.11.2. |
230. |
CSA |
CAN/CSA-B137.5-05 |
Crosslinked Polyethylene (PEX) Tubing Systems for Pressure Applications |
7.2.5.7.(1) |
|
|
|
Table 7.2.11.2. |
|
231. |
CSA |
CAN/CSA-B137.6-05 |
Chlorinated Polyvinylchloride (CPVC) Pipe, Tubing and Fittings for Hot and Cold Water Distribution Systems |
7.2.5.9.(1) |
|
|
|
7.2.5.9.(2) |
|
|
|
|
|
Table 7.2.11.2. |
232. |
CSA |
CAN/CSA-B137.9-05 |
Polyethylene/Aluminium/Polyethylene (PE-AL-PE) Composite Pressure-Pipe Systems |
7.2.5.13.(1) |
|
|
|
Table 7.2.11.2. |
|
233. |
CSA |
CAN/CSA-B137.10-05 |
Crosslinked Polyethylene/Aluminum Crosslinked Polyethylene (PEX-AL-PEX) Composite Pressure-Pipe Systems |
7.2.5.13.(4) |
|
|
|
7.2.5.14.(1) |
|
|
|
|
Table 7.2.11.2. |
|
234. |
CSA |
CAN/CSA-B137.11-05 |
Polypropylene (PP-R) Pipe and Fittings for Pressure Applications |
7.2.5.15.(1) |
|
|
|
|
|
235. |
CSA |
B158.1-1976 |
Cast Brass Solder Joint Drainage, Waste and Vent Fittings |
7.2.7.5.(1) |
|
|
|
|
7.2.10.1.(1) |
236. |
CSA |
CAN/CSA-B181.1-06 |
Acrylonitrile-Butadiene-Styrene (ABS) Drain, Waste, and Vent Pipe and Pipe Fittings |
7.2.5.10.(1) |
|
|
|
7.2.5.11.(1) |
|
|
|
|
|
7.2.5.12.(1) |
|
|
|
|
7.2.5.12.(2) |
|
|
|
|
7.2.10.1.(2) |
|
|
|
|
7.4.6.4.(2) |
237. |
CSA |
CAN/CSA-B181.2-06 |
Polyvinylchloride (PVC) and Chlorinated Polyvinylchloride (CPVC) Drain, Waste, and Vent Pipe and Pipe Fittings |
7.2.5.10.(1) |
|
|
|
7.2.5.11.(1) |
|
|
|
|
7.2.5.12.(1) |
|
|
|
|
|
7.2.5.12.(2) |
|
|
|
|
7.2.10.1.(3) |
|
|
|
|
7.4.6.4.(2) |
238. |
CSA |
CAN/CSA-B181.3-06 |
Polyolefin and Polyvinylidene Fluoride (PVDF) Laboratory Drainage Systems |
7.2.8.1.(1) |
|
|
|
|
|
239. |
CSA |
CAN/CSA-B182.1-06 |
Plastic Drain and Sewer Pipe and Pipe Fittings |
Table 5.10.1.1. |
|
|
|
|
7.2.5.10.(1) |
|
|
|
|
7.2.5.12.(2) |
|
|
|
|
7.4.6.4.(2) |
|
|
|
|
9.14.3.1.(1) |
240. |
CSA |
CAN/CSA-B182.2-06 |
PSM Type Polyvinylchloride (PVC) Sewer Pipe and Fittings |
7.2.5.10.(1) |
|
|
|
7.2.5.12.(2) |
|
241. |
CSA |
CAN/CSA-B182.4-06 |
Profile Polyvinylchloride (PVC) Sewer Pipe and Fittings |
7.2.5.10.(1) |
242. |
CSA |
CAN/CSA-B182.6-06 |
Profile Polyethylene (PE) Sewer Pipe and Fittings for Leak-Proof Sewer Applications |
7.2.5.10.(1) |
|
|
|
|
|
243. |
CSA |
CAN/CSA-B214-07 |
Installation Code for Hydronic Heating Systems |
6.2.1.4.(6) |
244. |
CSA |
B242-05 |
Groove and Shoulder-Type Mechanical Pipe Couplings |
7.2.10.4.(1) |
245. |
CSA |
CAN/CSA-B272-93 |
Prefabricated Self-Sealing Roof Vent Flashings |
7.2.10.14.(2) |
246. |
CSA |
CAN/CSA-B355-00 |
Lifts for Persons with Physical Disabilities |
3.8.3.5.(1) |
247. |
CSA |
CAN/CSA-B356-00 |
Water Pressure Reducing Valves for Domestic Water Supply Systems |
7.2.10.12.(1) |
|
|
|
|
|
248. |
CSA |
CAN/CSA-B365-01 |
Installation Code for Solid-Fuel Burning Appliances and Equipment |
6.2.1.4.(1) |
|
|
|
6.2.1.4.(5) |
|
|
|
|
|
9.21.1.3.(2) |
|
|
|
|
9.22.10.2.(1) |
|
|
|
|
9.33.1.2.(1) |
249. |
CSA |
CAN/CSA-B366.1-11 |
Solid Fuel-Fired Central Heating Appliances |
6.2.1.4.(2) |
249.1 |
CSA |
B415.1-00 |
Performance Testing of Solid-Fuel-Burning Heating Appliances |
6.2.1.4.(7) |
|
|
|
|
9.33.1.2.(2) |
250. |
CSA |
CAN/CSA-B481.1-07 |
Testing and Rating of Grease Interceptors Using Lard |
7.2.3.2.(3) |
|
|
|
|
8.1.3.1.(8) |
251. |
CSA |
CAN/CSA-B481.2-07 |
Testing and Rating of Grease Interceptors Using Oil |
7.2.3.2.(3) |
|
|
|
|
8.1.3.1.(8) |
252. |
CSA |
CAN/CSA-B481.4-07 |
Maintenance of Grease Interceptors |
8.9.3.3.(1) |
253. |
CSA |
CAN/CSA-B483.1-07 |
Drinking Water Treatment Systems |
7.2.10.17.(1) |
254. |
CSA |
CAN/CSA-B602-05 |
Mechanical Couplings for Drain, Waste, and Vent Pipe and Sewer Pipe |
7.2.5.3.(2) |
|
|
|
7.2.10.4.(2) |
|
255. |
CSA |
C22.2 No. 0.3-01 |
Test Methods for Electrical Wires and Cables |
3.1.4.3.(1) |
|
|
|
|
3.1.4.3.(2) |
|
|
|
|
3.1.5.18.(1) |
|
|
|
|
3.1.5.18.(2) |
|
|
|
|
3.1.5.21.(1) |
|
|
|
|
3.1.5.21.(2) |
|
|
|
|
3.6.4.3.(1) |
|
|
|
|
9.34.1.5.(1) |
256. |
CSA |
C22.2 No.113-M1984 |
Fans and Ventilators |
9.32.3.9.(6) |
257. |
CSA |
C22.2 No. 141-10 |
Emergency Lighting Equipment |
3.2.7.4.(2) |
|
|
|
|
3.4.5.1.(3) |
|
|
|
|
9.9.11.3(3) |
|
|
|
|
9.9.12.3.(7) |
258. |
CSA |
C22.2 No. 211.0-03 |
General Requirements and Methods of Testing for Nonmetallic Conduit |
3.1.5.20.(1) |
|
|
|
|
|
259. |
CSA |
CAN/CSA-C22.2 No. 262-04 |
Optical Fiber Cable and Communication Cable Raceway Systems |
3.1.5.20.(1) |
|
|
|
||
260. |
CSA |
CAN/CSA-C22.3 No. 1-2010 |
Overhead Systems |
3.1.19.1.(2) |
|
|
|
|
|
261. |
CSA |
CAN/CSA-C88-M90 |
Power Transformers and Reactors |
3.6.2.7.(10) |
262. |
CSA |
CAN/CSA-C260-M90 |
Rating for the Performance of Residential Mechanical Ventilating Equipment |
9.32.3.9.(1) |
|
|
|
9.32.3.9.(2) |
|
|
|
|
|
Table 9.32.3.9. |
263. |
CSA |
CAN/CSA-C282-05 |
Emergency Electrical Power Supply for Buildings |
3.2.7.5.(1) |
264. |
CSA |
CAN/CSA-C439-00 |
Rating the Performance of Heat/Energy-Recovery Ventilators |
6.2.1.6.(2) |
|
|
|
9.32.3.11.(2) |
|
265. |
CSA |
CAN/CSA-C448.1-02 |
Design and Installation of Earth Energy Systems for Commercial and Institutional Buildings |
6.2.1.4.(4) |
|
|
|
|
|
266. |
CSA |
CAN/CSA-C448.2-02 |
Design and Installation of Earth Energy Systems for Residential and Other Small Buildings |
6.2.1.4.(3) |
|
|
|
|
|
267. |
CSA |
CAN/CSA-F280-M90 |
Determining the Required Capacity of Residential Space Heating and Cooling Appliances |
6.2.1.1.(1) |
|
|
|
9.33.2.2.(3) |
|
268. |
CSA |
CAN/CSA-F326-M91 |
Residential Mechanical Ventilation Systems |
6.2.1.1.(1) |
269. |
CSA |
CAN/CSA-F379.1-09 |
Packaged Solar Domestic Hot Water Systems (Liquid-to-Liquid Heat Transfer) |
7.2.10.13.(1) |
|
|
|
7.6.2.5.(3) |
|
|
|
|
|
7.6.2.5.(4) |
270. |
CSA |
F383-08 |
Installation of Packaged Solar Domestic Hot Water Systems |
7.6.1.13.(1) |
|
|
|
|
|
271. |
CSA |
CAN/CSA-G30.18-M92 |
Billet Steel Bars for Concrete Reinforcement |
9.3.1.1.(4) |
|
|
|
|
9.39.1.3.(1) |
272. |
CSA |
G40.21-04 |
General Requirements for Rolled or Welded Structural Quality Steel |
4.2.3.8.(1) |
|
|
|
|
Table 5.10.1.1. |
|
|
|
|
9.23.4.3.(2) |
273. |
CSA |
CAN/CSA-G164-M92 |
Hot Dip Galvanising of Irregularly Shaped Articles |
4.4.4.1.(4) |
274. |
CSA |
CAN/CSA-G401-07 |
Corrugated Steel Pipe Products |
Table 5.10.1.1. |
|
|
|
|
7.2.6.8.(1) |
|
|
|
|
9.14.3.1.(1) |
275. |
CSA |
CAN/CSA-O80 Series-08 |
Wood Preservation |
3.1.4.5.(1) |
|
|
|
4.2.3.2.(1) |
|
|
|
|
|
4.2.3.2.(2) |
|
|
|
|
Table 5.10.1.1. |
276. |
CSA |
CAN/CSA-O80.1-08 |
Specification of Treated Wood |
9.3.2.9.(6) |
277. |
CSA |
CAN/CSA-O80.2-08 |
Processing and Treatment |
4.2.3.2.(1) |
278. |
CSA |
CAN/CSA-O80.3-08 |
Preservative Formulations |
4.2.3.2.(1) |
279. |
CSA |
O80.15-97 |
Preservative Treatment of Wood for Building Foundation Systems, Basements and Crawl Spaces by Pressure Processes |
4.2.3.2.(1) |
|
|
|
|
|
|
|
|
|
|
280. |
CSA |
O86-09 |
Engineering Design in Wood |
Table 4.1.8.9. |
|
|
|
|
4.3.1.1.(1) |
281. |
CSA |
O115-M1982 |
Hardwood and Decorative Plywood |
Table 5.10.1.1. |
|
|
|
|
9.27.8.1.(1) |
|
|
|
|
9.30.2.2.(1) |
282. |
CSA |
O118.1-08 |
Western Red Cedar Shakes and Shingles |
Table 5.10.1.1. |
|
|
|
|
9.26.2.1.(1) |
|
|
|
|
9.27.7.1.(1) |
283. |
CSA |
O118.2-08 |
Eastern White Cedar Shingles |
Table 5.10.1.1. |
|
|
|
|
9.26.2.1.(1) |
|
|
|
|
9.27.7.1.(1) |
284. |
CSA |
O121-08 |
Douglas Fir Plywood |
Table 5.10.1.1. |
|
|
|
|
9.23.14.2.(1) |
|
|
|
|
9.23.15.2.(1) |
|
|
|
|
Table 9.23.16.2.A. |
|
|
|
|
9.27.8.1.(1) |
|
|
|
|
9.30.2.2.(1) |
|
|
|
|
Table A-13 |
|
|
|
|
Table A-14 |
|
|
|
|
Table A-15 |
285. |
CSA |
CAN/CSA-O122-06 |
Structural Glued-Laminated Timber |
Table A-11 |
|
|
|
|
Table A-16 |
286. |
CSA |
CAN/CSA-O132.2 Series-90 |
Wood Flush Doors |
9.7.4.3.(4) |
|
|
|
|
|
287. |
CSA |
O141-05 |
Softwood Lumber |
Table 5.10.1.1. |
|
|
|
|
9.3.2.6.(1) |
288. |
CSA |
O151-09 |
Canadian Softwood Plywood |
Table 5.10.1.1. |
|
|
|
|
9.23.14.2.(1) |
|
|
|
|
9.23.15.2.(1) |
|
|
|
|
Table 9.23.16.2.A. |
|
|
|
|
9.27.8.1.(1) |
|
|
|
|
9.30.2.2.(1) |
|
|
|
|
Table A-13 |
|
|
|
|
Table A-14 |
|
|
|
|
Table A-15 |
289. |
CSA |
O153-M1980 |
Poplar Plywood |
Table 5.10.1.1. |
|
|
|
|
9.23.14.2.(1) |
|
|
|
|
9.23.15.2.(1) |
|
|
|
|
Table 9.23.16.2.A. |
|
|
|
|
9.27.8.1.(1) |
|
|
|
|
9.30.2.2.(1) |
290. |
CSA |
O177-06 |
Qualification Code for Manufacturers of Structural Glued-Laminated Timber |
4.3.1.2.(1) |
|
|
|
Table A-11 |
|
|
|
|
|
Table A-16 |
291. |
CSA |
CAN/CSA-O325.0-07 |
Construction Sheathing |
Table 5.10.1.1. |
|
|
|
|
9.23.14.2.(1) |
|
|
|
|
9.23.14.4.(2) |
|
|
|
|
Table 9.23.14.5.B. |
|
|
|
|
9.23.15.2.(1) |
|
|
|
|
9.23.15.3.(2) |
|
|
|
|
Table 9.23.15.7.B. |
|
|
|
|
Table 9.23.16.2.B. |
|
|
|
|
9.29.9.1.(2) |
|
|
|
|
9.29.9.2.(5) |
|
|
|
|
Table A-13 |
|
|
|
|
Table A-14 |
|
|
|
|
Table A-15 |
292. |
CSA |
O437.0-93 |
OSB and Waferboard |
Table 5.10.1.1. |
|
|
|
|
9.23.14.2.(1) |
|
|
|
|
9.23.14.4.(2) |
|
|
|
|
9.23.15.2.(1) |
|
|
|
|
9.23.15.3.(2) |
|
|
|
|
Table 9.23.16.2.A. |
|
|
|
|
9.27.10.1.(1) |
|
|
|
|
9.29.9.1.(2) |
|
|
|
|
9.30.2.2.(1) |
|
|
|
|
Table A-13 |
|
|
|
|
Table A-14 |
|
|
|
|
Table A-15 |
293. |
CSA |
S16-09 |
Design of Steel Structures |
Table 4.1.8.9. |
|
|
|
|
4.3.4.1.(1) |
294. |
CSA |
CAN/CSA-S136-07 |
North American Specifications for the Design of Cold Formed Steel Structural Members (using the Appendix B provisions applicable to Canada) |
Table 4.1.8.9. |
|
|
|
4.3.4.2.(1) |
|
|
|
|
|
|
295. |
CSA |
CAN/CSA-S157-05 / S157.1-05 |
Strength Design in Aluminum / Commentary on CSA S157-05, Strength Design in Aluminum |
4.3.5.1.(1) |
|
|
|
||
296. |
CSA |
S304.1-04 |
Design of Masonry Structures |
Table 4.1.8.9. |
|
|
|
|
4.3.2.1.(1) |
297. |
CSA |
S307-M1980 |
Load Test Procedure for Wood Roof Trusses for Houses and Small Buildings |
9.23.13.11.(5) |
|
|
|
|
|
298. |
CSA |
S367-09 |
Air-, Cable-, and Frame-Membrane Supported Structures |
4.4.1.1.(1) |
299. |
CSA |
CAN/CSA-S406-92 |
Construction of Preserved Wood Foundations |
9.13.2.8.(1) |
|
|
|
|
9.15.2.4.(1) |
|
|
|
|
9.16.5.1.(1) |
300. |
CSA |
S413-07 |
Parking Structures |
4.4.2.1.(1) |
301. |
CSA |
S478-95 |
Guideline on Durability in Buildings |
5.1.4.2.(3) |
|
|
|
|
Table 5.10.1.1. |
302. |
CSA |
Z32-04 |
Electrical Safety and Essential Electrical Systems in Health Care Facilities |
3.2.7.3.(4) |
|
|
|
3.2.7.6.(1) |
|
|
|
|
|
3.7.5.1.(1) |
303. |
CSA |
CAN/CSA-Z91-02 |
Health and Safety Code for Suspended Equipment Operations |
4.4.4.1.(1) |
|
|
|
|
|
303.1 |
CSA |
Z240 MH Series-09 |
Manufactured Homes |
3.1.1.1.(2) of Division C |
|
|
|
|
3.2.4.1.(3) of Division C |
304. |
CSA |
Z240.2.1-09 |
Structural Requirements for Manufactured Homes |
9.1.1.9.(1) |
|
|
|
|
9.12.2.2.(6) |
|
|
|
|
9.15.1.3.(1) |
305. |
CSA |
Z240.10.1-08 |
Site Preparation, Foundation and Anchorage of Manufactured Homes |
9.15.1.3.(1) |
|
|
|
9.23.6.3.(1) |
|
306. |
CSA |
CAN/CSA-Z241 Series-03 |
Park Model Trailers |
9.38.1.1.(1) |
|
|
|
|
9.38.2.1.(1) |
|
|
|
|
3.1.1.1.(2) of Division C |
|
|
|
|
3.2.4.1.(3) of Division C |
307. |
CSA |
CAN/CSA-Z317.2-01 |
Special Requirements for Heating, Ventilation and Air Conditioning (HVAC) Systems in Health Care Facilities |
6.2.1.1.(1) |
|
|
|
|
|
308. |
CSA |
Z662-07 |
Oil and Gas Pipeline Systems |
3.2.3.21.(1) |
309. |
CSA |
CAN/CSA-Z7396.1-06 |
Medical Gas Piping Systems - Part 1: Pipelines for Medical Gases and Vacuum |
3.7.5.2.(1) |
|
|
|
|
|
310. |
CWC |
2009 |
Engineering Guide for Wood Frame Construction |
9.4.1.1.(1) |
311. |
DBR |
Technical Paper No. 194, May 1965 |
Fire Endurance of Protected Steel Columns and Beams |
Table 11.5.1.1.A. |
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Table 11.5.1.1.B. |
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Table 11.5.1.1.C. |
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Table 11.5.1.1.D/E. |
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Table 11.5.1.1.F. |
312. |
DBR |
Technical Paper No. 207, October 1965 |
Fire Endurance of Unit Masonry Walls |
Table 11.5.1.1.A. |
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Table 11.5.1.1.B. |
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Table 11.5.1.1.C. |
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Table 11.5.1.1.D/E. |
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Table 11.5.1.1.F. |
313. |
DBR |
Technical Paper No. 222, June 1966 |
Fire Endurance of Light-Framed and Miscellaneous Assemblies |
Table 11.5.1.1.A. |
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Table 11.5.1.1.B. |
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Table 11.5.1.1.C. |
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Table 11.5.1.1.D/E. |
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Table 11.5.1.1.F. |
314. |
EPA |
EPA/625/R-92/016 |
Radon Prevention in the Design and Construction of Schools and Other Large Buildings |
6.2.1.1.(1) |
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315. |
FINA |
2009 |
Rules and Regulations - FINA Facilities Rules 2009-2013 - FR5 Diving Facilities |
3.11.4.1.(17) |
316. |
HI |
2005 |
Hydronics Institute Manuals |
6.2.1.1.(1) |
317. |
HRAI |
2005 |
Digest |
6.2.1.1.(1) |
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6.2.3.5.(1) |
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6.2.4.3.(13) |
318. |
HUD |
Rehabilitation Guidelines 2000 |
Guideline on Fire Ratings of Archaic Materials and Assemblies |
Table 11.5.1.1.A. |
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Table 11.5.1.1.B. |
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Table 11.5.1.1.C. |
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Table 11.5.1.1.D/E. |
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Table 11.5.1.1.F. |
319. |
HVI |
HVI 915-2009 |
Procedure for Loudness Rating of Residential Fan Products |
9.32.3.9.(2) |
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Table 9.32.3.9. |
320. |
HVI |
HVI 916-2009 |
Airflow Test Procedure |
9.32.3.9.(1) |
321. |
ISO |
3864-1: 2002 |
Graphical Symbols – Safety Colours and Safety Signs – Part 1: Design Principles for Safety Signs in Workplaces and Public Areas |
3.4.5.1.(2) |
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9.9.11.3.(2) |
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322. |
ISO |
7010: 2003 |
Graphical Symbols - Safety Colours and Safety Signs - Safety Signs Used in Workplaces and Public Areas |
3.4.5.1.(2) |
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9.9.11.3.(2) |
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323. |
ISO |
8201: 1987(E) |
Acoustics - Audible Emergency Evacuation Signal |
3.2.4.20.(2) |
324. |
MMAH |
Supplementary Standard SA-1, November 24, 2013 |
Objectives and Functional Statements Attributed to the Acceptable Solutions |
1.2.1.1.(1) of Division A |
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1.2.1.1.(2) of Division A |
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325. |
MMAH |
Supplementary Standard SB-1, September 14, 2012 |
Climatic and Seismic Data |
1.1.2.1.(1) |
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1.1.2.1.(2) |
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3.2.6.2.(2) |
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3.3.1.7.(1) |
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5.2.1.1.(1) |
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5.2.1.1.(2) |
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6.2.1.1.(1) |
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6.2.1.7.(1) |
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7.4.10.4.(1) |
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9.4.1.1.(3) |
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9.4.2.2.(1) |
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Table 9.25.5.2. |
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Table 9.32.3.10.A. |
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9.33.3.2.(1) |
326. |
MMAH |
Supplementary Standard SB-2, September 14, 2012 |
Fire Performance Ratings |
3.1.5.23.(1) |
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3.1.7.1.(2) |
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3.1.8.14.(2) |
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3.1.9.5.(1) |
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3.1.9.5.(2) |
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3.1.12.1.(3) |
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3.2.3.12.(1) |
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3.2.3.13.(4) |
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3.13.2.1.(8) |
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3.13.3.5.(1) |
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3.13.3.6.(2) |
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3.13.4.2.(7) |
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9.10.3.1.(1) |
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9.10.3.2.(1) |
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9.10.5.1.(4) |
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9.10.9.9.(1) |
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9.10.13.14.(1) |
327. |
MMAH |
Supplementary Standard SB-3, September 14, 2012 |
Fire and Sound Resistance of Building Assemblies |
9.10.3.1.(1) |
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9.10.5.1.(4) |
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9.11.2.1.(1) |
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9.11.2.1.(2) |
328. |
MMAH |
Supplementary Standard SB-4, September 14, 2012 |
Measures for Fire Safety in High Buildings |
3.2.6.2.(1) |
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3.2.6.2.(6) |
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3.2.6.5.(3) |
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3.2.6.9.(1) |
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3.2.6.10.(2) |
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3.2.6.14.(1) |
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Table 11.5.1.1.C. |
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Table 11.5.1.1.D/E. |
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Table 11.5.1.1.F. |
329. |
MMAH |
Supplementary Standard SB-5, September 1, 2013 |
Approved Sewage Treatment Units |
8.6.2.2.(5) |
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330. |
MMAH |
Supplementary Standard SB-6, September 14, 2012 |
Percolation Times and Soil Descriptions |
8.2.1.2.(2) |
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331. |
MMAH |
Supplementary Standard SB-7, September 14, 2012 |
Guards for Housing and Small Buildings |
9.8.8.2.(5) |
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332. |
MMAH |
Supplementary Standard SB-8, September 14, 2012 |
Design, Construction and Installation of Anchorage Systems for Fixed Access Ladders |
3.6.1.5.(1) |
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333. |
MMAH |
Supplementary Standard SB-9, September 14, 2012 |
Requirements for Soil Gas Control |
9.13.4.1.(1) |
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9.13.4.2.(2) to (4) |
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334. |
MMAH |
Supplementary Standard SB-10, September 14, 2012 |
Energy Efficiency Requirements |
Table 9.7.3.3. |
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12.2.1.1.(2) |
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12.2.1.2.(2) |
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12.2.2.1.(1) |
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12.2.3.1.(1) |
335. |
MMAH |
Supplementary Standard SB-11, September 14, 2012 |
Construction of Farm Buildings |
1.3.1.2.(4) of Division A |
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336. |
MMAH |
Supplementary Standard SB-12, September 1, 2013 |
Energy Efficiency for Housing |
Table 9.7.3.3. |
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Table 11.5.1.1.C. |
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12.2.1.1.(3) |
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12.2.1.2.(3) |
337. |
MMAH |
Supplementary Standard SB-13, September 14, 2012 |
Glass in Guards |
3.1.20.1.(1) |
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338. |
MMAH |
Supplementary Standard SC-1, September 14, 2012 |
Code of Conduct for Registered Code Agencies |
3.7.4.1.(2) of Division C |
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339. |
MOE |
PIBS 6879 2008 |
Design Guidelines for Sewage Works |
7.1.5.5.(2) |
340. |
MOE |
PIBS 6881e 2008 |
Design Guidelines for Drinking-Water Systems |
7.1.5.5.(1) |
341. |
NFPA |
2011 Publication |
National Fire Codes |
6.2.1.1.(1) |
342. |
NFPA |
13-2007 |
Installation of Sprinkler Systems |
3.1.9.1.(4) |
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3.2.4.9.(2) |
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3.2.4.17.(1) |
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3.2.5.13.(1) |
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3.2.8.4.(7) |
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3.3.2.12.(3) |
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3.15.1.1.(3) |
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3.15.1.1.(4) |
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3.15.1.5.(2) |
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3.15.1.6.(2) |
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3.15.2.1.(1) |
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3.15.2.2.(1) |
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3.15.3.1.(1) |
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9.10.9.6.(11) |
343. |
NFPA |
13D-2007 |
Installation of Sprinkler Systems in One- and Two-Family Dwellings and Manufactured Homes |
3.2.5.13.(3) |
|
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|
344. |
NFPA |
13R-2007 |
Installation of Sprinkler Systems in Residential Occupancies up to and including Four Stories in Height |
3.2.5.13.(2) |
|
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|
|
345. |
NFPA |
14-2007 |
Installation of Standpipe and Hose Systems |
3.2.9.2.(1) |
346. |
NFPA |
20-2007 |
Installation of Stationary Pumps for Fire Protection |
3.2.4.10.(4) |
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|
3.2.5.19.(1) |
347. |
NFPA |
24-2010 |
Installation of Fire Service Mains and Their Appurtenances |
7.2.11.1.(1) |
348. |
NFPA |
68-2007 |
Explosion Protection by Deflagration Venting |
3.3.6.3.(1) |
|
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3.3.6.4.(2) |
|
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3.3.6.4.(4) |
349. |
NFPA |
80-2007 |
Fire Doors and Other Opening Protectives |
3.1.8.5.(2) |
|
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3.1.8.10.(2) |
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3.1.8.14.(1) |
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3.1.9.1.(5) |
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3.13.3.1.(2) |
|
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9.10.9.6.(13) |
|
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9.10.13.1.(1) |
350. |
NFPA |
82-2009 |
Incinerators, Waste and Linen Handling Systems and Equipment |
6.2.6.1.(1) |
|
|
|
9.10.10.5.(2) |
|
351. |
NFPA |
91-2004 |
Exhaust Systems for Air Conveying of Vapors, Gases, Mists and Noncombustible Particulate Solids |
6.2.13.4.(1) |
|
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|
|
352. |
NFPA |
96-2008 |
Ventilation Control and Fire Protection of Commercial Cooking Operations |
3.2.4.9.(2) |
|
|
|
6.2.2.6.(1) |
|
353. |
NFPA |
130-2010 |
Fixed Guideway Transit and Passenger Rail Systems |
3.12.7.1.(1) |
354. |
NFPA |
211-2006 |
Chimneys, Fireplaces, Vents and Solid Fuel-Burning Appliances |
6.3.1.2.(2) |
|
|
|
6.3.1.3.(1) |
|
355. |
NFPA |
214-2005 |
Water-Cooling Towers |
6.2.3.14.(3) |
356. |
NFPA |
701-2010 |
Fire Tests for Flame Propagation of Textiles and Films |
3.14.1.6.(1) |
|
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|
3.14.2.5.(1) |
357. |
NLGA |
2007 |
Standard Grading Rules for Canadian Lumber |
1.4.1.2.(1) of Division A |
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9.3.2.1.(1) |
|
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|
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Table 9.3.2.1. |
|
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|
|
Tables A-1 to A-10 |
|
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|
|
358. |
NRCan |
January 2005, including all amendments, revisions and supplements effective to May 31, 2006 |
EnerGuide for New Houses: Administrative and Technical Procedures |
12.2.1.1.(3) |
|
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12.2.1.2.(3) |
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359. |
NSF |
NSF/ANSI 46-2010 |
Evaluation of Components and Devices Used in Wastewater Treatment Systems |
8.6.2.1.(2) |
|
|
|
|
|
360. |
NSF |
NSF/ANSI 61-2010 |
Drinking Water System Components - Health Effects |
7.2.10.7.(1) |
361. |
SMACNA |
ANSI/SMACNA 006-2006, 3rd Edition 2005 |
HVAC Duct Construction Standards - Metal and Flexible |
6.2.1.1.(1) |
|
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6.2.4.2.(3) |
|
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6.2.4.3.(11) |
|
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6.2.4.3.(12) |
362. |
TPIC |
2007 |
Truss Design Procedures and Specifications for Light Metal Plate Connected Wood Trusses |
9.23.13.11.(6) |
|
|
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|
|
363. |
UL |
UL 300-2005 |
Fire Extinguishing Systems for Protection of Restaurant Cooking Areas |
6.2.2.6.(2) |
|
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|
|
364. |
UL |
UL 2034-2008 |
Single and Multiple Station Carbon Monoxide Alarms |
6.2.12.3.(1) |
|
|
|
|
9.33.4.3.(1) |
365. |
ULC |
CAN/ULC-S101-07 |
Fire Endurance Tests of Building Construction and Materials |
3.1.5.12.(3) |
|
|
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3.1.5.12.(4) |
|
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|
|
3.1.5.12.(6) |
|
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|
3.1.7.1.(1) |
|
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3.1.11.7.(1) |
|
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3.2.3.8.(1) |
|
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3.2.6.5.(6) |
|
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|
9.10.16.3.(1) |
366. |
ULC |
CAN/ULC-S102-07 |
Test for Surface Burning Characteristics of Building Materials and Assemblies |
3.1.5.25.(1) |
|
|
|
3.1.12.1.(1) |
|
367. |
ULC |
CAN/ULC-S102.2-07 |
Test for Surface Burning Characteristics of Flooring, Floor Coverings, and Miscellaneous Materials and Assemblies |
3.1.12.1.(2) |
|
|
|
3.1.13.4.(1) |
|
368. |
ULC |
CAN/ULC-S102.3-07 |
Fire Test of Light Diffusers and Lenses |
3.1.13.4.(1) |
369. |
ULC |
CAN/ULC-S102.4-07 |
Fire and Smoke Characteristics of Electrical Wiring and Cables |
3.1.5.18.(1) |
|
|
|
3.1.5.20.(2) |
|
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|
|
3.6.4.3.(1) |
370. |
ULC |
CAN4-S104-M80 |
Fire Tests of Door Assemblies |
3.1.8.4.(1) |
|
|
|
|
3.2.6.5.(6) |
371. |
ULC |
CAN4-S105-M85 |
Fire Door Frames Meeting the Performance Required by CAN4-S104 |
9.10.13.6.(1) |
|
|
|
|
|
372. |
ULC |
CAN4-S106-M80 |
Fire Tests of Window and Glass Block Assemblies |
3.1.8.4.(1) |
373. |
ULC |
CAN/ULC-S107-03 |
Fire Tests of Roof Coverings |
3.1.15.1.(1) |
374. |
ULC |
CAN/ULC-S109-03 |
Flame Tests of Flame-Resistant Fabrics and Films |
3.1.16.1.(1) |
|
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|
3.14.1.6.(1) |
|
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|
3.14.2.5.(1) |
|
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|
6.2.3.16.(1) |
|
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6.2.3.17.(1) |
|
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|
|
6.2.4.9.(1) |
375. |
ULC |
CAN/ULC-S110-07 |
Test for Air Ducts |
6.2.3.2.(2) |
|
|
|
|
6.2.3.2.(4) |
376. |
ULC |
ULC-S111-07 |
Fire Tests for Air Filter Units |
6.2.3.13.(1) |
|
|
|
|
6.2.4.14.(1) |
377. |
ULC |
CAN/ULC-S112-M90 |
Fire Test of Fire-Damper Assemblies |
3.1.8.4.(1) |
378. |
ULC |
CAN/ULC-S112.1-M90 |
Leakage Rated Dampers for Use in Smoke Control Systems |
6.2.3.9.(3) |
|
|
|
|
|
379. |
ULC |
CAN/ULC-S112.2-07 |
Fire Test of Ceiling Firestop Flap Assemblies |
3.1.9.5.(2) |
|
|
|
|
3.6.4.3.(2) |
380. |
ULC |
CAN/ULC-S113-07 |
Wood Core Doors Meeting the Performance Required by CAN/ULC-S104 for Twenty Minute Fire Rated Closure Assemblies |
9.10.13.2.(1) |
|
|
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|
|
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|
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|
|
381. |
ULC |
CAN/ULC-S114-05 |
Test for Determination of Non-Combustibility in Building Materials |
1.4.1.2.(1) of Division A |
382. |
ULC |
CAN/ULC-S115-05 |
Fire Tests of Firestop Systems |
3.1.5.16.(3) |
|
|
|
|
3.1.9.1.(1) |
|
|
|
|
3.1.9.1.(2) |
|
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|
|
3.1.9.1.(3) |
|
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|
|
3.1.9.3.(7) |
|
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|
3.1.9.4.(3) |
|
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|
3.1.9.4.(7) |
|
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|
|
9.10.9.6.(2) |
|
|
|
|
9.10.9.7.(3) |
383. |
ULC |
CAN/ULC-S124-06 |
Test for the Evaluation of Protective Coverings for Foamed Plastic |
3.1.5.12.(2) |
|
|
|
|
|
384. |
ULC |
CAN/ULC-S126-06 |
Test for Fire Spread Under Roof-Deck Assemblies |
3.1.14.1.(1) |
|
|
|
|
3.1.14.2.(1) |
385. |
ULC |
CAN/ULC-S134-92 |
Fire Test of Exterior Wall Assemblies |
3.1.5.5.(1) |
|
|
|
|
3.2.3.7.(3) |
386. |
ULC |
CAN/ULC-S135-04 |
Test Method for the Determination of Combustibility Parameters of Building Materials Using an Oxygen Consumption Calorimeter (Cone Calorimeter) |
3.1.5.1.(2) |
|
|
|
|
|
|
|
|
|
|
387. |
ULC |
CAN/ULC-S138-06 |
Fire Test for Fire Growth of Insulated Building Panels in a Full-Scale Room Configuration |
3.1.5.12.(7) |
|
|
|
|
|
388. |
ULC |
ULC-S139-00 |
Fire Test for Evaluation of Integrity of Electrical Cables |
3.2.7.10.(2) |
|
|
|
|
3.2.7.10.(3) |
389. |
ULC |
CAN/ULC-S143-09 |
Fire Tests for Non-Metallic Electrical and Optical Fibre Cable Raceways |
3.1.5.20.(1) |
|
|
|
|
|
390. |
ULC |
S505-1974 |
Fusible Links for Fire Protection Service |
3.1.8.9.(1) |
391. |
ULC |
S513-1978 |
Threaded Couplings for 38 mm and 65 mm Fire Hose |
3.2.9.2.(7) |
392. |
ULC |
CAN/ULC-S524-06 |
Installation of Fire Alarm Systems |
3.1.8.12.(2) |
|
|
|
|
3.1.8.12.(3) |
|
|
|
|
3.2.4.5.(1) |
|
|
|
|
3.2.4.22.(6) |
|
|
|
|
3.2.4.22.(11) |
|
|
|
|
9.10.19.4.(3) |
|
|
|
|
9.10.19.6.(2) |
393. |
ULC |
CAN/ULC-S531-02 |
Smoke Alarms |
3.2.4.22.(1) |
|
|
|
|
9.10.19.1.(1) |
394. |
ULC |
CAN/ULC-S537-04 |
Verification of Fire Alarm Systems |
3.2.4.5.(2) |
|
|
|
|
3.2.4.22.(6) |
395. |
ULC |
CAN/ULC-S543-09 |
Internal Lug Quick Connect Couplings for Fire Hose |
3.2.9.2.(7) |
396. |
ULC |
CAN/ULC-S553-02 |
Installation of Smoke Alarms |
3.2.4.22.(9) |
|
|
|
|
9.10.19.3.(2) |
397. |
ULC |
CAN/ULC-S561-03 |
Installation and Services for Fire Signal Receiving Centres and Systems |
3.2.4.8.(4) |
|
|
|
|
|
398. |
ULC |
CAN/ULC-S572-10 |
Photoluminescent and Self-Luminous Signs and Path Marking Systems |
3.4.5.1.(5) |
|
|
|
9.9.11.3.(3) |
|
|
|
|
|
9.9.11.3.(4) |
399. |
ULC |
CAN/ULC-S610-M87 |
Factory-Built Fireplaces |
9.22.8.1.(1) |
400. |
ULC |
ULC-S628-93 |
Fireplace Inserts |
9.22.10.1.(1) |
401. |
ULC |
CAN/ULC-S629-M87 |
650ºC Factory-Built Chimneys |
9.21.1.2.(1) |
402. |
ULC |
CAN/ULC-S639-M87 |
Steel Liner Assemblies for Solid Fuel-Burning Masonry Fireplaces |
9.22.2.3.(1) |
|
|
|
|
|
403. |
ULC |
CAN/ULC-S701-05 |
Thermal Insulation, Polystyrene, Boards and Pipe Covering |
Table 5.10.1.1. |
|
|
|
|
9.15.4.1.(1) |
|
|
|
|
Table 9.23.16.2.A. |
|
|
|
|
9.25.2.2.(1) |
|
|
|
|
9.25.2.2.(4) |
404. |
ULC |
CAN/ULC-S702-09 |
Mineral Fibre Thermal Insulation for Buildings |
Table 5.10.1.1. |
|
|
|
|
Table 9.23.16.2.A. |
|
|
|
|
9.25.2.2.(1) |
405. |
ULC |
CAN/ULC-S703-01 |
Cellulose Fibre Insulation (CFI) for Buildings |
Table 5.10.1.1. |
|
|
|
|
9.25.2.2.(1) |
406. |
ULC |
CAN/ULC-S704-03 |
Thermal Insulation, Polyurethane and Polyisocyanurate Boards, Faced |
Table 5.10.1.1. |
|
|
|
Table 9.23.16.2.A. |
|
|
|
|
|
9.25.2.2.(1) |
407. |
ULC |
CAN/ULC-S705.1-01 |
Thermal Insulation - Spray Applied Rigid Polyurethane Foam, Medium Density - Material - Specification |
Table 5.10.1.1. |
|
|
|
9.25.2.2.(1) |
|
408. |
ULC |
CAN/ULC-S705.2-05 |
Thermal Insulation - Spray Applied Rigid Polyurethane Foam, Medium Density - Application |
5.3.1.3.(3) |
|
|
|
Table 5.10.1.1. |
|
|
|
|
|
9.25.2.5.(1) |
409. |
ULC |
CAN/ULC-S706-02 |
Wood Fibre Thermal Insulation for Buildings |
Table 5.10.1.1. |
|
|
|
|
9.23.15.7.(3) |
|
|
|
|
Table 9.23.16.2.A. |
|
|
|
|
9.25.2.2.(1) |
|
|
|
|
9.29.8.1.(1) |
410. |
ULC |
CAN/ULC-S741-08 |
Air Barrier Materials - Specification |
5.4.1.2.(1) |
411. |
ULC |
ULC/ORD-C263.1-99 |
Sprinkler-Protected Window Systems |
3.1.8.18.(1) |
412. |
ULC |
ULC/ORD-C199P-02 |
Combustible Piping for Sprinkler Systems |
3.2.5.14.(2) |
|
|
|
|
3.2.5.14.(5) |
413. |
ULC |
ULC/ORD-C1254.6-1995 |
Fire Testing of Restaurant Cooking Area Fire Extinguishing System Units |
6.2.2.6.(2) |
|
|
3.6.4.3.(1) |
||
414. |
USDA |
October 1993 |
Soil Survey Manual |
8.2.1.2.(2) |
Notes to Table 1.3.1.2.:
(1) Some titles have been abridged to omit superfluous wording.
Note: On January 1, 2015, Table 1.3.1.2. is revoked and the following substituted:. (See: O. Reg. 191/14, ss. 6, 168 (2))
Table 1.3.1.2.
Documents Referenced in the Building Code
Forming Part of Sentence 1.3.1.2.(1)
Item |
Column 1 Issuing Agency |
Column 2 Document Number |
Column 3 Title of Document(1) |
Column 4 Code Reference |
|
|
1. |
ACGIH |
2013, 28th Edition |
Industrial Ventilation Manual |
6.2.1.1.(1) 6.2.2.4.(1) |
|
|
2. |
AISI |
S201-07 |
North American Standard for Cold Formed Steel Framing – Product Data |
9.24.1.2.(1) |
|
|
3. |
ANSI |
A208.1-2009 |
Particleboard |
Table 5.10.1.1. 9.23.14.2.(3) 9.29.9.1.(1) 9.30.2.2.(1) |
|
|
4. |
ANSI/ASHRAE |
62.1-2010 |
Ventilation for Acceptable Indoor Air Quality |
6.2.2.1.(2) 6.2.3.8.(15) |
|
|
5. |
ANSI/ASHRAE/IESNA |
90.1-2010 |
Energy Standard for Buildings Except Low-Rise Residential Buildings |
6.2.1.1.(1) |
|
|
6. |
ANSI/CSA |
ANSI Z21.22-1999 / CSA 4.4-M99 (including Addenda 1 and 2) |
Relief Valves for Hot Water Supply Systems |
7.2.10.11.(1) |
|
|
7. |
APHA/AWWA/WEF |
2012, 22nd Edition |
Standard Methods for the Examination of Water and Waste Water |
8.9.2.4.(1)(b) |
|
|
8. |
ASHRAE |
2013 |
Fundamentals |
5.2.1.3.(1) 6.2.1.1.(1) |
|
|
9. |
ASHRAE |
2011 |
HVAC Applications |
6.2.1.1.(1) |
|
|
10. |
ASHRAE |
2012 |
HVAC Systems and Equipment |
6.2.1.1.(1) |
|
|
11. |
ASHRAE |
2014 |
Refrigeration |
6.2.1.1.(1) |
|
|
12. |
ASME |
A112.19.8-2007 |
Suction Fittings for Use in Swimming Pools, Wading Pools, Spas, and Hot Tubs |
3.12.4.1.(9) |
|
|
13. |
ASME |
B16.3-2011 |
Malleable Iron Threaded Fittings: Classes 150 and 300 |
7.2.6.6.(1) |
|
|
14. |
ASME |
B16.4-2011 |
Gray Iron Threaded Fittings: Classes 125 and 250 |
7.2.6.5.(1) Table 7.2.11.2. |
|
|
15. |
ASME |
B16.12-2009 |
Cast Iron Threaded Drainage Fittings |
7.2.6.3.(1) |
|
|
16. |
ASME |
B16.15-2011 |
Cast Copper Alloy Threaded Fittings: Classes 125 and 250 |
7.2.7.3.(1) |
|
|
17. |
ASME |
B16.18-2012 |
Cast Copper Alloy Solder Joint Pressure Fittings |
7.2.7.6.(1) 7.2.7.6.(2) Table 7.2.11.2. |
|
|
18. |
ASME |
B16.22-2001 |
Wrought Copper and Copper Alloy Solder Joint Pressure Fittings |
7.2.7.6.(1) Table 7.2.11.2. |
|
|
19. |
ASME |
B16.23-2011 |
Cast Copper Alloy Solder Joint Drainage Fittings: DWV |
7.2.7.5.(1) |
|
|
20. |
ASME |
B16.24-2011 |
Cast Copper Alloy Pipe Flanges and Flanged Fittings: Classes 150, 300, 600, 900, 1500 and 2500 |
7.2.7.2.(1) |
|
|
21. |
ASME |
B16.26-2011 |
Cast Copper Alloy Fittings for Flared Copper Tubes |
7.2.7.7.(1) 7.2.7.7.(2) Table 7.2.11.2. |
|
|
22. |
ASME |
B16.29-2007 |
Wrought Copper and Wrought Copper Alloy Solder Joint Drainage Fittings - DWV |
7.2.7.5.(1) |
|
|
23. |
ASME |
B18.6.1-1981 |
Wood Screws (Inch Series) |
Table 5.10.1.1. 9.23.3.1.(3) |
|
|
24. |
ASME / CSA |
ASME A17.1-2010 / CSA B44-10 |
Safety Code for Elevators and Escalators |
3.5.2.2.(1) Table 4.1.5.11. 7.4.3.6.(1) |
|
|
25. |
ASME / CSA |
ASME A112.18.1-2012 / CSA B125.1-12 |
Plumbing Supply Fittings |
7.2.10.6.(1) 7.6.5.2.(1) |
|
|
26. |
ASME / CSA |
ASME A112.18.2-2011 / CSA B125.2-11 |
Plumbing Waste Fittings |
7.2.3.3.(1) 7.2.10.6.(2) |
|
|
27. |
ASME / CSA |
ASME A112.19.1-2008 / CSA B45.2-08 |
Enamelled Cast Iron and Enamelled Steel Plumbing Fixtures |
7.2.2.2.(3) 7.2.2.2.(4) |
|
|
28. |
ASME / CSA |
ASME A112.19.2-2008 / CSA B45.1-08 |
Ceramic Plumbing Fixtures |
7.2.2.2.(2) |
|
|
29. |
ASME / CSA |
ASME A112.19.3-2008 / CSA B45.4-08
|
Stainless Steel Plumbing Fixtures |
7.2.2.2.(5) |
|
|
30. |
ASME / CSA |
ASME A112.19.7-2012 / CSA B45.10-12 |
Hydromassage Bathtub Systems |
7.2.2.2.(7) |
|
|
31. |
ASPE |
2005 |
Data Books |
7.6.3.1.(2) 7.7.4.1.(1) |
|
|
32. |
ASSE |
ANSI/ASSE 1010-2004 |
Water Hammer Arresters |
7.2.10.15.(1) |
|
|
33. |
ASSE |
1051-2009 |
Individual and Branch Type Air Admittance Valves for Sanitary Drainage Systems |
7.2.10.16.(1) |
|
|
34. |
ASTM |
A53 / A53M-10 |
Pipe, Steel, Black and Hot-Dipped, Zinc-Coated Welded and Seamless |
7.2.6.7.(4) |
|
|
35. |
ASTM |
A123 / A123M-09 |
Zinc (Hot Dip Galvanized) Coatings on Iron and Steel Products |
Table 5.10.1.1. Table 9.20.16.1. |
|
|
36. |
ASTM |
A153 / A153M-09 |
Zinc Coating (Hot-Dip) on Iron and Steel Hardware |
Table 5.10.1.1. Table 9.20.16.1. |
|
|
37. |
ASTM |
A252-10 |
Welded and Seamless Steel Pipe Piles |
4.2.3.8.(1) |
|
|
38. |
ASTM |
A283 / A283M-03 |
Low and Intermediate Tensile Strength Carbon Steel Plates |
4.2.3.8.(1) |
|
|
39. |
ASTM |
A518 / A518M-99 |
Corrosion-Resistant High-Silicon Iron Castings |
7.2.8.1.(1) |
|
|
40. |
ASTM |
A653 / A653M-11 |
Steel Sheet, Zinc-Coated (Galvanized) or Zinc-Iron Alloy-Coated (Galvannealed) by the Hot-Dip Process |
Table 5.10.1.1. 9.3.3.2.(1) |
|
|
41. |
ASTM |
A792 / A792M-10 |
Steel Sheet, 55% Aluminum-Zinc Alloy-Coated by the Hot-Dip Process |
9.3.3.2.(1) |
|
|
42. |
ASTM |
A1008 / A1008M-11 |
Steel, Sheet, Cold-Rolled, Carbon, Structural, High-Strength Low-Alloy, and High-Strength Low-Alloy with Improved Formability, Solution Hardened, and Bake Hardenable |
4.2.3.8.(1) |
|
|
43. |
ASTM |
A1011 / A1011M-10 |
Steel, Sheet and Strip, Hot-Rolled, Carbon, Structural, High-Strength Low-Alloy, High-Strength Low-Alloy with Improved Formability, and Ultra-High Strength |
4.2.3.8.(1) |
|
|
44. |
ASTM |
B32-08 |
Solder Metal |
7.2.9.2.(2) |
|
|
45. |
ASTM |
B42-10 |
Seamless Copper Pipe, Standard Sizes |
7.2.7.1.(1) |
|
|
46. |
ASTM |
B43-09 |
Seamless Red Brass Pipe, Standard Sizes |
7.2.7.1.(2) |
|
|
47. |
ASTM |
B68 / B68M-11 |
Seamless Copper Tube, Bright Annealed |
7.2.7.4.(3) |
|
|
48. |
ASTM |
B88-09 |
Seamless Copper Water Tube |
7.2.7.4.(1) 7.2.7.4.(3) Table 7.2.11.2. |
|
|
49. |
ASTM |
B306-09 |
Copper Drainage Tube (DWV) |
7.2.7.4.(1) |
|
|
50. |
ASTM |
B813-10 |
Liquid and Paste Fluxes for Soldering of Copper and Copper Alloy Tube |
7.2.9.2.(3) |
|
|
51. |
ASTM |
B828-02 |
Making Capillary Joints by Soldering of Copper and Copper Alloy Tube and Fittings |
7.3.2.4.(1) |
|
|
52. |
ASTM |
C4-04 |
Clay Drain Tile and Perforated Clay Drain Tile |
Table 5.10.1.1. 9.14.3.1.(1) |
|
|
53. |
ASTM |
C27-98 |
Classification for Fire Clay and High-Alumina Refractory Brick |
9.21.3.4.(1) |
|
|
54. |
ASTM |
C73-10 |
Calcium Silicate Brick (Sand-Lime Brick) |
Table 5.10.1.1. 9.20.2.1.(1) |
|
|
55. |
ASTM |
C126-11 |
Ceramic Glazed Structural Clay Facing Tile, Facing Brick, and Solid Masonry Units |
Table 5.10.1.1. 9.20.2.1.(1) |
|
|
56. |
ASTM |
C212-10 |
Structural Clay Facing Tile |
Table 5.10.1.1. 9.20.2.1.(1) |
|
|
57. |
ASTM |
C260 / C260M-10a |
Air-Entraining Admixtures for Concrete |
9.3.1.8.(1) |
|
|
58. |
ASTM |
C411-11 |
Hot-Surface Performance of High-Temperature Thermal Insulation |
6.2.3.4.(3) 6.2.9.2.(2) |
|
|
59. |
ASTM |
C412M-11 |
Concrete Drain Tile (Metric) |
Table 5.10.1.1. 9.14.3.1.(1) |
|
|
60. |
ASTM |
C444M-03 |
Perforated Concrete Pipe (Metric) |
Table 5.10.1.1. 9.14.3.1.(1) |
|
|
|
|
|
|
|
||
61. |
ASTM |
C494 / C494M-11 |
Chemical Admixtures for Concrete |
9.3.1.8.(1) |
|
|
62. |
ASTM |
C553-11 |
Mineral Fiber Blanket Thermal Insulation for Commercial and Industrial Applications |
Table 5.10.1.1. |
|
|
63. |
ASTM |
C612-10 |
Mineral Fiber Block and Board Thermal Insulation |
Table 5.10.1.1. |
|
|
64. |
ASTM |
C700-11 |
Vitrified Clay Pipe, Extra Strength, Standard Strength and Perforated |
Table 5.10.1.1. 9.14.3.1.(1) |
|
|
65. |
ASTM |
C834-10 |
Latex Sealants |
Table 5.10.1.1. 9.27.4.2.(2) |
|
|
66. |
ASTM |
C920-11 |
Elastomeric Joint Sealants |
Table 5.10.1.1. 9.27.4.2.(2) |
|
|
67. |
ASTM |
C954-11 |
Steel Drill Screws for the Application of Gypsum Panel Products or Metal Plaster Bases to Steel Studs from 0.033 in. (0.84 mm) to 0.112 in. (2.84 mm) in Thickness |
9.24.1.4.(1) |
|
|
68. |
ASTM |
C991-08e1 |
Flexible Fibrous Glass Insulation for Metal Buildings |
Table 5.10.1.1. |
|
|
69. |
ASTM |
C1002-07 |
Steel Self-Piercing Tapping Screws for the Application of Gypsum Panel Products or Metal Plaster Bases to Wood Studs or Steel Studs |
Table 5.10.1.1. 9.24.1.4.(1) 9.29.5.7.(1) |
|
|
70. |
ASTM |
C1053-00 |
Borosilicate Glass Pipe and Fittings for Drain, Waste and Vent (DWV) Applications |
7.2.8.1.(1) |
|
|
71. |
ASTM |
C1177 / C1177M-08 |
Glass Mat Gypsum Substrate for Use as Sheathing |
Table 5.10.1.1. Table 9.23.16.2.A. |
|
|
72. |
ASTM |
C1178 / C1178M-11 |
Coated Glass Mat Water-Resistant Gypsum Backing Panel |
Table 5.10.1.1. 9.29.5.2.(1) |
|
|
73. |
ASTM |
C1184-05 |
Structural Silicone Sealants |
Table 5.10.1.1. 9.27.4.2.(2) |
|
|
74. |
ASTM |
C1311-10 |
Solvent Release Sealants |
Table 5.10.1.1. 9.27.4.2.(2) |
|
|
75. |
ASTM |
C1330-02 |
Cylindrical Sealant Backing for Use with Cold Liquid-Applied Sealants |
Table 5.10.1.1. 9.27.4.2.(3) |
|
|
76. |
ASTM |
C1396 / C1396M-11 |
Gypsum Board |
3.1.5.12.(4) Table 5.10.1.1. Table 9.23.16.2.A. 9.29.5.2.(1) Table 9.29.5.3. |
|
|
77. |
ASTM |
D323-08 |
Vapor Pressure of Petroleum Products (Reid Method) |
1.4.1.2.(1) of Division A |
|
|
78. |
ASTM |
D374-99 |
Thickness of Solid Electrical Insulation |
3.15.4.1.(1) |
|
|
79. |
ASTM |
D568-77 |
Rate of Burning and/or Extent and Time of Burning of Flexible Plastics in a Vertical Position |
3.15.4.1.(1) |
|
|
80. |
ASTM |
D635-06 |
Rate of Burning and/or Extent and Time of Burning of Plastics in a Horizontal Position |
3.15.4.1.(1) |
|
|
81. |
ASTM |
D2178-04 |
Asphalt Glass Felt Used in Roofing and Waterproofing |
Table 5.10.1.1. |
|
|
82. |
ASTM |
D2898-10 |
Accelerated Weathering of Fire-Retardant-Treated Wood for Fire Testing |
3.1.5.5.(5) 3.1.5.25.(1) 3.2.3.7.(5) 3.2.3.7.(7) |
|
|
83. |
ASTM |
D3261-10a |
Butt Heat Fusion Polyethylene (PE) Plastic Fittings for Polyethylene (PE) Plastic Pipe and Tubing |
7.2.5.5.(3) |
|
|
84. |
ASTM |
E90-04 |
Laboratory Measurement of Airborne Sound Transmission Loss of Building Partitions and Elements |
5.9.1.1.(1) 9.11.1.1.(1) |
|
|
85. |
ASTM |
E96 / E96M-10 |
Water Vapor Transmission of Materials |
5.5.1.2.(3) 9.25.4.2.(1) 9.25.5.1.(1) |
|
|
86. |
ASTM |
E336-05 |
Measurement of Airborne Sound Attenuation Between Rooms in Buildings |
5.9.1.1.(1) 9.11.1.1.(1) |
|
|
87. |
ASTM |
E413-04 |
Classification for Rating Sound Insulation |
5.9.1.1.(1) 9.11.1.1.(1) |
|
|
88. |
ASTM |
E2190-10 |
Insulating Glass Unit Performance and Evaluation |
Table 5.10.1.1. 9.6.1.2.(1) |
|
|
89. |
ASTM |
F476-84 |
Security of Swinging Door Assemblies |
9.7.5.2.(2) |
|
|
90. |
ASTM |
F628-08 |
Acrylonitrile-Butadiene-Styrene (ABS) Schedule 40 Plastic Drain, Waste, and Vent Pipe With a Cellular Core |
7.2.5.10.(1) 7.2.5.12.(1) 7.2.5.12.(2) |
|
|
91. |
ASTM |
F714-10 |
Polyethylene (PE) Plastic Pipe (SDR-PR) Based on Outside Diameter |
7.2.5.6.(1) |
|
|
92. |
ASTM |
F1667-05 |
Driven Fasteners: Nails, Spikes and Staples |
9.23.3.1.(1) 9.26.2.2.(1) 9.29.5.6.(1) |
|
|
93. |
AWPA |
M4-11 |
Care of Preservative-Treated Wood Products |
Table 5.10.1.1. |
|
|
94. |
AWS |
ANSI/AWS A5.8M/ 5.8:2011 |
Specification for Filler Metals for Brazing and Braze Welding |
7.2.9.2.(4) |
|
|
95. |
AWWA |
ANSI/AWWA C104 / A21.4-2008 |
Cement-Mortar Lining for Ductile-Iron Pipe and Fittings |
7.2.6.4.(2) Table 7.2.11.2. |
|
|
96. |
AWWA |
ANSI/AWWA C110 / A21.10-2012 |
Ductile-Iron and Gray-Iron Fittings |
7.2.6.4.(3) Table 7.2.11.2. |
|
|
97. |
AWWA |
ANSI/AWWA C111 / A21.11-2012 |
Rubber-Gasket Joints for Ductile-Iron Pressure Pipe and Fittings |
7.2.6.4.(4) Table 7.2.11.2. |
|
|
98. |
AWWA |
ANSI/AWWA C151 / A21.51-2009 |
Ductile-Iron Pipe, Centrifugally Cast |
7.2.6.4.(1) Table 7.2.11.2. |
|
|
99. |
BCMOH |
Version 2, 21st Sept, 2007 |
Sewerage System Standard Practice Manual |
8.7.8.3.(2) 8.7.8.3.(3) |
|
|
100. |
BNQ |
BNQ 3624-115-2007 |
Polyethylene (PE) Pipe and Fittings - Flexible Pipes for Drainage - Characteristics and Test Methods |
Table 5.10.1.1. 9.14.3.1.(1) |
|
|
101. |
BNQ |
CAN/BNQ 3680-600-2009 |
Onsite Residential Wastewater Treatment Technologies |
8.6.2.2.(5) Table 8.6.2.2. |
|
|
102. |
CCBFC |
NRCC 38730 1997 |
Model National Energy Code of Canada for Buildings |
6.2.1.1.(1) |
|
|
103. |
CCBFC |
NRCC 54435 2011 |
National Energy Code of Canada for Buildings |
6.2.1.1.(1) |
|
|
104. |
CCBFC |
NRCC 38726 1995 |
National Building Code of Canada |
1.3.1.2.(3) of Division A |
|
|
105. |
CCBFC |
NRCC 53301 2010 |
National Building Code of Canada |
2.4.2.1.(2) of Division C |
|
|
106. |
CCBFC |
NRCC 53302 2010 |
National Plumbing Code of Canada |
2.4.2.1.(2) of Division C |
|
|
107. |
CCBFC |
NRCC 53303 2010 |
National Fire Code of Canada |
3.3.1.2.(1) 3.3.5.2.(1) 6.2.2.5.(1) |
|
|
108. |
CCBFC |
NRCC 38732 1995 |
National Farm Building Code of Canada |
1.3.1.2.(1) to (5) of Division A |
|
|
109. |
CGSB |
CAN/CGSB-1.501-M89 |
Method of Permeance of Coated Wallboard |
5.5.1.2.(2) 9.25.4.2.(5) |
|
|
110. |
CGSB |
CAN/CGSB-7.2-94 |
Adjustable Steel Columns |
9.17.3.4.(1) |
|
|
111. |
CGSB |
CAN/CGSB-10.3-92 |
Air Setting Refractory Mortar |
9.21.3.4.(2) 9.21.3.9.(1) 9.22.2.2.(2) |
|
|
112. |
CGSB |
CAN/CGSB-11.3-M87 |
Hardboard |
Table 5.10.1.1. 9.27.9.1.(2) 9.29.7.1.(1) 9.30.2.2.(1) |
|
|
113. |
CGSB |
CAN/CGSB-11.5-M87 |
Hardboard, Precoated, Factory Finished, for Exterior Cladding |
Table 5.10.1.1. 9.27.9.1.(1) |
|
|
114. |
CGSB |
CAN/CGSB-12.1-M90 |
Tempered or Laminated Safety Glass |
3.3.1.19.(2) 3.4.6.15.(1) 3.4.6.15.(3) Table 5.10.1.1. 9.6.1.2.(2) 9.6.1.4.(1) 9.8.8.7.(1) |
|
|
115. |
CGSB |
CAN/CGSB-12.2-M91 |
Flat, Clear Sheet Glass |
Table 5.10.1.1. 9.6.1.2.(1) |
|
|
116. |
CGSB |
CAN/CGSB-12.3-M91 |
Flat, Clear Float Glass |
Table 5.10.1.1. 9.6.1.2.(1) |
|
|
117. |
CGSB |
CAN/CGSB-12.4-M91 |
Heat Absorbing Glass |
Table 5.10.1.1. 9.6.1.2.(1) |
|
|
118. |
CGSB |
CAN/CGSB-12.5-M86 |
Mirrors, Silvered |
Table 5.10.1.1. 9.6.1.2.(3) |
|
|
119. |
CGSB |
CAN/CGSB-12.8-97 |
Insulating Glass Units |
Table 5.10.1.1. 9.6.1.2.(1) |
|
|
120. |
CGSB |
CAN/CGSB-12.10-M76 |
Glass, Light and Heat Reflecting |
Table 5.10.1.1. 9.6.1.2.(1) |
|
|
121. |
CGSB |
CAN/CGSB-12.11-M90 |
Wired Safety Glass |
3.3.1.19.(2) 3.4.6.15.(1) 3.4.6.15.(3) Table 5.10.1.1. 9.6.1.2.(2) 9.6.1.4.(1) 9.8.8.7.(1) |
|
|
122. |
CGSB |
CAN/CGSB-12.20-M89 |
Structural Design of Glass for Buildings |
4.3.6.1.(1) 9.6.1.3.(1) |
|
|
123. |
CGSB |
CAN/CGSB-19.22-M89 |
Mildew Resistant Sealing Compound for Tubs and Tile |
9.29.10.5.(1) |
|
|
124. |
CGSB |
CAN/CGSB-34.9-M94 |
Asbestos-Cement Sewer Pipe |
7.2.5.1.(2) |
|
|
125. |
CGSB |
CAN/CGSB-34.22-94 |
Asbestos-Cement Drain Pipe |
Table 5.10.1.1. 7.2.5.1.(1) 9.14.3.1.(1) |
|
|
126. |
CGSB |
CAN/CGSB-34.23-94 |
Asbestos-Cement House Connection Sewer Pipe |
7.2.5.1.(2) |
|
|
127. |
CGSB |
CAN/CGSB-37.1-M89 |
Chemical Emulsified Type, Emulsified Asphalt for Dampproofing |
Table 5.10.1.1. 9.13.2.2.(1) |
|
|
128. |
CGSB |
CAN/CGSB-37.2-M88 |
Emulsified Asphalt, Mineral Colloid Type, Unfilled, for Dampproofing and Waterproofing and for Roof Coatings |
Table 5.10.1.1. 9.13.2.2.(1) 9.13.3.2.(1) |
|
|
129. |
CGSB |
CAN/CGSB-37.3-M89 |
Application of Emulsified Asphalts for Dampproofing or Waterproofing |
5.8.2.3.(1) Table 5.10.1.1. 9.13.2.3.(1) 9.13.3.3.(1) |
|
|
130. |
CGSB |
CAN/CGSB-37.4-M89 |
Fibrated, Cutback Asphalt, Lap Cement for Asphalt Roofing |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
131. |
CGSB |
CAN/CGSB-37.5-M89 |
Cutback Asphalt Plastic Cement |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
132. |
CGSB |
37-GP-6Ma-1983 |
Asphalt, Cutback, Unfilled, for Dampproofing |
5.8.2.2.(6) 5.8.2.2.(7) Table 5.10.1.1. 9.13.2.2.(1) |
|
|
133. |
CGSB |
CAN/CGSB-37.8-M88 |
Asphalt, Cutback, Filled, for Roof Coating |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
134. |
CGSB |
37-GP-9Ma-1983 |
Primer, Asphalt, Unfilled, for Asphalt Roofing, Dampproofing and Waterproofing |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
135. |
CGSB |
37-GP-12Ma-1984 |
Application of Unfilled Cutback Asphalt for Dampproofing |
5.8.2.3.(2) Table 5.10.1.1. 9.13.2.3.(1) |
|
|
136. |
CGSB |
CAN/CGSB-37.16-M89 |
Filled, Cutback Asphalt for Dampproofing and Waterproofing |
Table 5.10.1.1. 9.13.2.2.(1) 9.13.3.2.(1) |
|
|
137. |
CGSB |
37-GP-18Ma-1985 |
Tar, Cutback, Unfilled, for Dampproofing |
5.8.2.2.(6) 5.8.2.2.(7) Table 5.10.1.1. 9.13.2.2.(1) |
|
|
138. |
CGSB |
37-GP-21M-1985 |
Tar, Cutback, Fibrated, For Roof Coating |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
139. |
CGSB |
CAN/CGSB-37.22-M89 |
Application of Unfilled, Cutback Tar Foundation Coating for Dampproofing |
5.8.2.3.(2) Table 5.10.1.1. 9.13.2.3.(1) |
|
|
140. |
CGSB |
37-GP-36M-1976 |
Application of Filled Cutback Asphalt for Dampproofing and Waterproofing |
5.8.2.3.(1) Table 5.10.1.1. |
|
|
141. |
CGSB |
37-GP-37M-1977 |
Application of Hot Asphalt for Dampproofing or Waterproofing |
5.8.2.3.(1) Table 5.10.1.1. |
|
|
142. |
CGSB |
CAN/CGSB-37.50-M89 |
Hot Applied, Rubberized Asphalt for Roofing and Waterproofing |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
143. |
CGSB |
CAN/CGSB-37.51-M90 |
Application for Hot Applied Rubberized Asphalt for Roofing and Waterproofing |
5.6.1.2.(1) 5.8.2.3.(1) Table 5.10.1.1. 9.26.15.1.(1) |
|
|
144. |
CGSB |
37-GP-52M-1984 |
Roofing and Waterproofing Membrane, Sheet Applied, Elastomeric |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
145. |
CGSB |
CAN/CGSB-37.54-95 |
Polyvinyl Chloride Roofing and Waterproofing Membrane |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
146. |
CGSB |
37-GP-55M-1979 |
Application of Sheet Applied Flexible Polyvinyl Chloride Roofing Membrane |
5.6.1.2.(1) Table 5.10.1.1. 9.26.16.1.(1) |
|
|
147. |
CGSB |
37-GP-56M-1985 |
Membrane, Modified, Bituminous, Prefabricated, and Reinforced for Roofing |
Table 5.10.1.1. 9.13.2.2.(1) 9.13.3.2.(1) 9.26.2.1.(1) |
|
|
148. |
CGSB |
37-GP-64M-1977 |
Mat Reinforcing, Fibrous Glass, for Membrane Waterproofing Systems and Built-up Roofing |
Table 5.10.1.1. |
|
|
149. |
CGSB |
41-GP-6M-1983 |
Sheets, Thermosetting Polyester Plastics, Glass Fiber Reinforced |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
150. |
CGSB |
CAN/CGSB-41.24-95 |
Rigid Vinyl Siding, Soffits and Fascia |
Table 5.10.1.1. 9.27.12.1.(1) |
|
|
151. |
CGSB |
CAN/CGSB-51.25-M87 |
Thermal Insulation, Phenolic, Faced |
Table 9.23.16.2.A. 9.25.2.2.(1) |
|
|
152. |
CGSB |
51-GP-27M-1979 |
Thermal Insulation, Polystyrene, Loose Fill |
9.25.2.2.(1) |
|
|
153. |
CGSB |
CAN/CGSB-51.32-M77 |
Sheathing, Membrane, Breather Type |
Table 5.10.1.1. 9.20.13.9.(1) 9.26.2.1.(1) 9.27.3.2.(1) |
|
|
154. |
CGSB |
CAN/CGSB-51.33-M89 |
Vapour Barrier, Sheet, Excluding Polyethylene, for Use in Building Construction |
Table 5.10.1.1. 9.25.4.2.(4) |
|
|
155. |
CGSB |
CAN/CGSB-51.34-M86 (amended 1988) |
Vapour Barrier, Polyethylene Sheet for Use in Building Construction |
Table 5.10.1.1. 9.13.2.2.(1) 9.13.4.2.(1) 9.18.6.2.(1) 9.25.3.2.(2) 9.25.3.6.(1) 9.25.4.2.(3) |
|
|
156. |
CGSB |
CAN/CGSB-82.6-M86 |
Doors, Mirrored Glass, Sliding or Folding, Wardrobe |
9.6.1.2.(2) |
|
|
157. |
CGSB |
CAN/CGSB-93.1-M85 |
Sheet, Aluminum Alloy, Prefinished Residential |
Table 5.10.1.1. 9.27.11.1.(4) |
|
|
158. |
CGSB |
CAN/CGSB-93.2-M91 |
Prefinished Aluminum Siding, Soffits and Facsia for Residential Use |
3.2.3.6.(4) Table 5.10.1.1. 9.10.14.5.(8) 9.10.14.5.(11) 9.10.15.5.(7) 9.10.15.5.(10) 9.27.11.1.(3) |
|
|
159. |
CGSB |
CAN/CGSB-93.3-M91 |
Prefinished Galvanized and Aluminum-Zinc Alloy Steel Sheet for Residential Use |
Table 5.10.1.1. 9.27.11.1.(2) |
|
|
160. |
CGSB |
CAN/CGSB-93.4-92 |
Galvanized Steel and Aluminum-Zinc Alloy Coated Steel Siding, Soffits and Fascia, Prefinished, Residential |
Table 5.10.1.1. 9.27.11.1.(1) |
|
|
161. |
CSA |
CAN/CSA-6.19-01 |
Residential Carbon Monoxide Alarming Devices |
6.2.12.3.(1) 9.33.4.3.(1) |
|
|
162. |
CSA |
A23.1-09 |
Concrete Materials and Methods of Concrete Construction |
4.2.3.6.(1) 4.2.3.9.(1) Table 5.10.1.1. 9.3.1.1.(1) 9.3.1.1.(4) 9.3.1.3.(1) 9.3.1.4.(1) 9.39.1.4.(1) |
|
|
163. |
CSA |
CAN/CSA-A23.3-04 |
Design of Concrete Structures |
Table 4.1.8.9. 4.3.3.1.(1) |
|
|
164. |
CSA |
A60.1-M1976 |
Vitrified Clay Pipe |
7.2.5.4.(1) |
|
|
165. |
CSA |
A60.3-M1976 |
Vitrified Clay Pipe Joints |
7.2.5.4.(2) |
|
|
166. |
CSA |
CAN/CSA-A82.1-M87 |
Burned Clay Brick (Solid Masonry Units Made From Clay or Shale) |
Table 5.10.1.1. 9.20.2.1.(1) |
|
|
167. |
CSA |
A82.4-M1978 |
Structural Clay Load-Bearing Wall Tile |
Table 5.10.1.1. 9.20.2.1.(1) |
|
|
168. |
CSA |
A82.5-M1978 |
Structural Clay Non-Load-Bearing Tile |
Table 5.10.1.1. 9.20.2.1.(1) |
|
|
169. |
CSA |
CAN3-A82.8-M78 |
Hollow Clay Brick |
Table 5.10.1.1. 9.20.2.1.(1) |
|
|
170. |
CSA |
CAN/CSA-A82.27-M91 |
Gypsum Board |
3.1.5.12.(4) Table 5.10.1.1. Table 9.23.16.2.A. 9.29.5.2.(1) |
|
|
171. |
CSA |
A82.30-M1980 |
Interior Furring, Lathing and Gypsum Plastering |
Table 5.10.1.1. 9.29.4.1.(1) |
|
|
172. |
CSA |
A82.31-M1980 |
Gypsum Board Application |
3.2.3.6.(4) Table 5.10.1.1. 9.10.12.4.(3) 9.29.5.1.(2) |
|
|
173. |
CSA |
CAN3-A93-M82 |
Natural Airflow Ventilators for Buildings |
Table 5.10.1.1. 9.19.1.2.(5) |
|
|
174. |
CSA |
A123.1-05 /A123.5-05 |
Asphalt Shingles Made from Organic Felt and Surfaced with Mineral Granules / Asphalt Shingles Made from Glass Felt and Surfaced with Mineral Granules |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
175. |
CSA |
CAN/CSA-A123.2-03 |
Asphalt Coated Roofing Sheets |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
176. |
CSA |
A123.3-05 |
Asphalt Saturated Organic Roofing Felt |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
177. |
CSA |
CAN/CSA-A123.4-04 |
Asphalt for Constructing Built-Up Roof Coverings and Waterproofing Systems |
Table 5.10.1.1. 9.13.2.2.(1) 9.13.3.2.(1) 9.26.2.1.(1) |
|
|
178. |
CSA |
A123.17-05 |
Asphalt Glass Felt Used in Roofing and Waterproofing |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
179. |
CSA |
CAN3-A123.51-M85 |
Asphalt Shingle Application on Roof Slopes 1:3 and Steeper |
5.6.1.2.(1) Table 5.10.1.1. 9.26.1.2.(1) |
|
|
180. |
CSA |
CAN3-A123.52-M85 |
Asphalt Shingle Application on Roof Slopes 1:6 to Less than 1:3 |
5.6.1.2.(1) Table 5.10.1.1. 9.26.1.2.(1) |
|
|
181. |
CSA |
CAN/CSA-A165.1-04 |
Concrete Block Masonry Units |
Table 5.10.1.1. 9.15.2.2.(1) 9.17.5.1.(1) 9.20.2.1.(1) 9.20.2.6.(1) |
|
|
182. |
CSA |
CAN/CSA-A165.2-04 |
Concrete Brick Masonry Units |
Table 5.10.1.1. 9.20.2.1.(1) |
|
|
183. |
CSA |
CAN/CSA-A165.3-04 |
Prefaced Concrete Masonry Units |
Table 5.10.1.1. 9.20.2.1.(1) |
|
|
184. |
CSA |
CAN3-A165.4-M85 |
Autoclaved Cellular Units |
Table 5.10.1.1. 9.20.2.1.(1) |
|
|
185. |
CSA |
CAN/CSA-A179-04 |
Mortar and Grout for Unit Masonry |
Table 5.10.1.1. 9.15.2.2.(3) 9.20.3.1.(1) |
|
|
186. |
CSA |
CAN/CSA-A220.0-06 |
Performance of Concrete Roof Tiles |
Table 5.10.1.1. 9.26.2.1.(1) |
|
|
187. |
CSA |
CAN/CSA-A220.1-06 |
Installation of Concrete Roof Tiles |
Table 5.10.1.1. 9.26.17.1.(1) |
|
|
188. |
CSA |
CAN/CSA-A257 Series-09 |
Standards for Concrete Pipe and Manhole Sections |
7.2.5.3.(1) |
|
|
189. |
CSA |
CAN/CSA-A257.4-09 |
Precast Reinforced Circular Concrete Manhole Sections, Catch Basins, and Fittings |
7.2.5.3.(5) |
|
|
190. |
CSA |
A277-08 |
Procedure for Factory Certification of Buildings |
9.1.1.9.(1) 3.1.1.1.(2) of Division C 3.2.4.1.(3) of Division C |
|
|
191. |
CSA |
CAN/CSA-A324-M88 |
Clay Flue Liners |
9.21.3.3.(1) |
|
|
192. |
CSA |
CAN/CSA-A371-04 |
Masonry Construction for Buildings |
5.6.1.2.(2) Table 5.10.1.1. 9.15.2.2.(3) 9.20.3.2.(7) 9.20.15.2.(1) |
|
|
193. |
CSA |
CAN/CSA-A405-M87 |
Design and Construction of Masonry Chimneys and Fireplaces |
9.21.3.5.(1) 9.22.1.4.(7) 9.22.5.2.(2) |
|
|
194. |
CSA |
AAMA/WDMA/CSA 101/I.S.2/A440-11 |
NAFS – North American Fenestration Standard/Specification for Windows, Doors, and Skylights |
5.10.2.2.(1) Table 9.7.3.3. 9.7.4.1.(1) 9.7.4.2.(1) 9.7.4.3.(2) 9.7.5.1.(1) 9.7.5.3.(1) |
|
|
195. |
CSA |
A440.2-09 / A440.3-09 |
Fenestration Energy Performance / User Guide to CSA A440.2-09, Fenestration Energy Performance |
Table 9.7.3.3. 12.3.1.2.(1) |
|
|
196. |
CSA |
CAN/CSA-A440.4-07 |
Window, Door and Skylight Installation |
9.7.6.1.(1) |
|
|
197. |
CSA |
A440S1-09 |
Canadian Supplement to AAMA/WDMA/CSA 101/I.S.2/A440, NAFS – North American Fenestration Standard/Specification for Windows, Doors, and Skylights |
5.10.2.2.(1) 9.7.4.2.(1) 9.7.4.3.(1) |
|
|
198. |
CSA |
A660-10 |
Certification of Manufacturers of Steel Building Systems |
4.3.4.3.(1) |
|
|
199. |
CSA |
CAN/CSA-A3001-08 |
Cementitious Materials for Use in Concrete |
Table 5.10.1.1. 9.3.1.2.(1) 9.28.2.1.(1) |
|
|
200. |
CSA |
CAN/CSA-B45.0-02 |
General Requirements for Plumbing Fixtures |
7.6.4.2.(1) |
|
|
201. |
CSA |
CAN/CSA-B45.9-02 |
Macerating Systems and Related Components |
7.2.2.2.(8) |
|
|
202. |
CSA |
B52-05 |
Mechanical Refrigeration Code |
6.2.2.4.(4) |
|
|
203. |
CSA |
B64.0-11 |
Definitions, General Requirements, and Test Methods for Vacuum Breakers and Backflow Preventers |
7.2.10.10.(1) |
|
|
204. |
CSA |
B64.1.1-11 |
Atmospheric Vacuum Breakers (AVB) |
7.2.10.10.(1) |
|
|
205. |
CSA |
B64.1.2-11 |
Pressure Vacuum Breakers (PVB) |
7.2.10.10.(1) |
|
|
206. |
CSA |
B64.1.3-11 |
Spill-resistant Pressure Vacuum Breakers (SRPVB) |
7.2.10.10.(1) |
|
|
207. |
CSA |
B64.1.4-11 |
Vacuum Breaker, Air Space Type (ASVB) |
7.2.10.10.(1) |
|
|
208. |
CSA |
B64.2-11 |
Hose Connection Vacuum Breakers (HCVB) |
7.2.10.10.(1) |
|
|
209. |
CSA |
B64.2.1-11 |
Hose Connection Vacuum Breakers (HCVB) with Manual Draining Feature |
7.2.10.10.(1) |
|
|
210. |
CSA |
B64.2.1.1-11 |
Hose Connection Dual Check Vacuum Breakers (HCDVB) |
7.2.10.10.(1) |
|
|
211. |
CSA |
B64.2.2-11 |
Hose Connection Vacuum Breakers (HCVB) with Automatic Draining Feature |
7.2.10.10.(1) |
|
|
212. |
CSA |
B64.3-11 |
Dual Check Valve Backflow Preventers with Atmospheric Port (DCAP) |
7.2.10.10.(1) 7.6.2.5.(4) |
|
|
213. |
CSA |
B64.3.1-11 |
Dual Check Valve Backflow Preventers with Atmospheric Port for Carbonators (DCAPC) |
7.2.10.10.(1) |
|
|
214. |
CSA |
B64.4-11 |
Reduced Pressure Principle (RP) Backflow Preventers |
7.2.10.10.(1) |
|
|
215. |
CSA |
B64.4.1-11 |
Reduced Pressure Principle Backflow Preventers for Fire Protection Systems (RPF) |
7.6.2.4.(2) Table 7.6.2.4. 7.6.2.4.(4) |
|
|
216. |
CSA |
B64.5-11 |
Double Check Valve (DCVA) Backflow Preventers |
7.2.10.10.(1) |
|
|
217. |
CSA |
B64.5.1-11 |
Double Check Valve Backflow Preventers for Fire Protection Systems (DCVAF) |
7.6.2.4.(2) Table 7.6.2.4. |
|
|
218. |
CSA |
B64.6-11 |
Dual Check Valve (DuC) Backflow Preventers |
7.2.10.10.(1) 7.6.2.6.(3) 7.7.1.1.(3) |
|
|
219. |
CSA |
B64.6.1-11 |
Dual Check Valve Backflow Preventers for Fire Protection Systems (DuCF) |
7.6.4.2.(2) Table 7.6.2.4. |
|
|
220. |
CSA |
B64.7-11 |
Laboratory Faucet Vacuum Breakers (LFVB) |
7.2.10.10.(1) |
|
|
221. |
CSA |
B64.8-11 |
Dual Check Valve Backflow Preventers with Intermediate Vent (DuCV) |
7.2.10.10.(1) |
|
|
222. |
CSA |
B64.9-11 |
Single Check Valve Backflow Preventers for Fire Protection Systems (SCVAF) |
7.6.2.4.(2) Table 7.6.2.4. |
|
|
223. |
CSA |
B64.10-11 |
Selection and Installation of Backflow Preventers |
7.2.10.10.(1) 7.6.2.3.(1) Table 7.6.2.4. 7.6.2.6.(1) |
|
|
224. |
CSA |
B66-10 |
Design, Material, and Manufacturing Requirements for Prefabricated Septic Tanks and Sewage Holding Tanks |
8.2.2.2.(1) 8.2.2.2.(2) 8.2.2.2.(3) 8.2.2.3.(7) 8.2.2.3.(11) |
|
|
225. |
CSA |
CAN/CSA-B70-12 |
Cast Iron Soil Pipe, Fittings and Means of Joining |
7.2.6.1.(1) 7.4.6.4.(2) |
|
|
226. |
CSA |
B111-1974 |
Wire Nails, Spikes and Staples |
9.23.3.1.(1) 9.26.2.2.(1) 9.29.5.6.(1) |
|
|
227. |
CSA |
CSA B125.3-12 |
Plumbing Fittings |
7.2.10.6.(1) 7.2.10.10.(2) 7.6.5.2.(2) |
|
|
228. |
CSA |
CAN/CSA-B127.1-99 |
Asbestos Cement Drain, Waste and Vent Pipe and Pipe Fittings |
7.2.5.1.(1) 7.2.6.2.(1) |
|
|
229. |
CSA |
B127.2-M1977 |
Components for Use in Asbestos Cement Building Sewer Systems |
7.2.5.1.(2) 7.2.6.2.(1) |
|
|
230. |
CSA |
CAN/CSA-B128.1-06 |
Design and Installation of Non-Potable Water Systems |
7.7.2.1.(2) 7.7.4.1.(1) |
|
|
231. |
CSA |
CAN/CSA-B137.1-09 |
Polyethylene (PE) Pipe, Tubing and Fittings for Cold Water Pressure Services |
7.2.5.5.(1) Table 7.2.11.2. |
|
|
232. |
CSA |
CAN/CSA-B137.2-09 |
Polyvinylchloride (PVC) Injection-Moulded Gasketed Fittings for Pressure Applications |
7.2.5.8.(1) 7.2.5.10.(1) Table 7.2.11.2. |
|
|
233. |
CSA |
CAN/CSA-B137.3-09 |
Rigid Polyvinylchloride (PVC) Pipe for Pressure Applications |
7.2.5.8.(1) 7.2.5.10.(1) Table 7.2.11.2. |
|
|
234. |
CSA |
CAN/CSA-B137.5-09 |
Crosslinked Polyethylene (PEX) Tubing Systems for Pressure Applications |
7.2.5.7.(1) Table 7.2.11.2. |
|
|
235. |
CSA |
CAN/CSA-B137.6-09 |
Chlorinated Polyvinylchloride (CPVC) Pipe, Tubing and Fittings for Hot and Cold Water Distribution Systems |
7.2.5.9.(1) 7.2.5.9.(2) Table 7.2.11.2. |
|
|
236. |
CSA |
CAN/CSA-B137.9-09 |
Polyethylene/Aluminium/Polyethylene (PE-AL-PE) Composite Pressure-Pipe Systems |
7.2.5.13.(1) Table 7.2.11.2. |
|
|
237. |
CSA |
CAN/CSA-B137.10-09 |
Crosslinked Polyethylene/Aluminum/Crosslinked Polyethylene (PEX-AL-PEX) Composite Pressure-Pipe Systems |
7.2.5.13.(4) 7.2.5.14.(1) Table 7.2.11.2. |
|
|
238. |
CSA |
CAN/CSA-B137.11-09 |
Polypropylene (PP-R) Pipe and Fittings for Pressure Applications |
7.2.5.15.(1) |
|
|
239. |
CSA |
B158.1-1976 |
Cast Brass Solder Joint Drainage, Waste and Vent Fittings |
7.2.7.5.(1) 7.2.10.1.(1) |
|
|
240. |
CSA |
CAN/CSA-B181.1-11 |
Acrylonitrile-Butadiene-Styrene (ABS) Drain, Waste, and Vent Pipe and Pipe Fittings |
7.2.5.10.(1) 7.2.5.11.(1) 7.2.5.12.(1) 7.2.5.12.(2) 7.2.10.1.(2) 7.4.6.4.(2) |
|
|
241. |
CSA |
CAN/CSA-B181.2-11 |
Polyvinylchloride (PVC) and Chlorinated Polyvinylchloride (CPVC) Drain, Waste, and Vent Pipe and Pipe Fittings |
7.2.5.10.(1) 7.2.5.11.(1) 7.2.5.12.(1) 7.2.5.12.(2) 7.2.10.1.(3) 7.4.6.4.(2) |
|
|
242. |
CSA |
CAN/CSA-B181.3-11 |
Polyolefin and Polyvinylidene Fluoride (PVDF) Laboratory Drainage Systems |
7.2.8.1.(1) |
|
|
243. |
CSA |
CAN/CSA-B182.1-11 |
Plastic Drain and Sewer Pipe and Pipe Fittings |
Table 5.10.1.1. 7.2.5.10.(1) 7.2.5.12.(2) 7.4.6.4.(2) 9.14.3.1.(1) |
|
|
244. |
CSA |
CAN/CSA-B182.2-11 |
PSM Type Polyvinylchloride (PVC) Sewer Pipe and Fittings |
7.2.5.10.(1) 7.2.5.12.(2) |
|
|
245. |
CSA |
CAN/CSA-B182.4-11 |
Profile Polyvinylchloride (PVC) Sewer Pipe and Fittings |
7.2.5.10.(1) |
|
|
246. |
CSA |
CAN/CSA-B182.6-11 |
Profile Polyethylene (PE) Sewer Pipe and Fittings for Leak-Proof Sewer Applications |
7.2.5.10.(1) |
|
|
247. |
CSA |
CAN/CSA-B214-12 |
Installation Code for Hydronic Heating Systems |
6.2.1.4.(6) |
|
|
248. |
CSA |
B242-05 |
Groove and Shoulder-Type Mechanical Pipe Couplings |
7.2.10.4.(1) |
|
|
249. |
CSA |
CAN/CSA-B272-93 |
Prefabricated Self-Sealing Roof Vent Flashings |
7.2.10.14.(2) |
|
|
250. |
CSA |
B355-09 |
Lifts for Persons with Physical Disabilities |
3.8.3.5.(1) |
|
|
251. |
CSA |
CAN/CSA-B356-10 |
Water Pressure Reducing Valves for Domestic Water Supply Systems |
7.2.10.12.(1) |
|
|
252. |
CSA |
B365-10 |
Installation Code for Solid-Fuel-Burning Appliances and Equipment |
6.2.1.4.(1) 6.2.1.4.(5) 9.21.1.3.(1) 9.22.10.2.(1) 9.33.1.2.(1) |
|
|
253. |
CSA |
B366.1-11 |
Solid-Fuel-Fired Central Heating Appliances |
6.2.1.4.(2) |
|
|
254. |
CSA |
B415.1-00 |
Performance Testing of Solid-Fuel-Burning Heating Appliances |
6.2.1.4.(7) 9.33.1.2.(2) |
|
|
255. |
CSA |
B481.1-12 |
Testing and Rating of Grease Interceptors Using Lard |
7.2.3.2.(3) 8.1.3.1.(8) |
|
|
256. |
CSA |
B481.2-12 |
Testing and Rating of Grease Interceptors Using Oil |
7.2.3.2.(3) 8.1.3.1.(8) |
|
|
257. |
CSA |
B481.4-12 |
Maintenance of Grease Interceptors |
8.9.3.3.(1) |
|
|
258. |
CSA |
CAN/CSA-B483.1-07 |
Drinking Water Treatment Systems |
7.2.10.17.(1) |
|
|
259. |
CSA |
CAN/CSA-B602-10 |
Mechanical Couplings for Drain, Waste, and Vent Pipe and Sewer Pipe |
7.2.5.3.(2) 7.2.10.4.(2) |
|
|
260. |
CSA |
C22.2 No. 0.3-09 |
Test Methods for Electrical Wires and Cables |
3.1.4.3.(1) 3.1.4.3.(2) 3.1.5.18.(1) 3.1.5.18.(2) 3.1.5.21.(1) 3.1.5.21.(2) 3.6.4.3.(1) 9.34.1.5.(1) |
|
|
261. |
CSA |
C22.2 No. 113-10 |
Fans and Ventilators |
9.32.3.9.(6) |
|
|
262. |
CSA |
C22.2 No. 141-10 |
Emergency Lighting Equipment |
3.2.7.4.(2) 3.4.5.1.(3) 9.9.11.3(3) 9.9.12.3.(7) |
|
|
263. |
CSA |
C22.2 No. 211.0-03 |
General Requirements and Methods of Testing for Nonmetallic Conduit |
3.1.5.20.(1) |
|
|
264. |
CSA |
CAN/CSA-C22.2 No. 262-04 |
Optical Fiber Cable and Communication Cable Raceway Systems |
3.1.5.20.(1) |
|
|
265. |
CSA |
CAN/CSA-C22.3 No. 1-10 |
Overhead Systems |
3.1.19.1.(2) |
|
|
266. |
CSA |
CAN/CSA-C88-M90 |
Power Transformers and Reactors |
3.6.2.7.(10) |
|
|
267. |
CSA |
CAN/CSA-C260-M90 |
Rating for the Performance of Residential Mechanical Ventilating Equipment |
9.32.3.9.(1) 9.32.3.9.(2) Table 9.32.3.9. |
|
|
268. |
CSA |
C282-09 |
Emergency Electrical Power Supply for Buildings |
3.2.7.5.(1) |
|
|
269. |
CSA |
CAN/CSA-C439-09 |
Rating the Performance of Heat/Energy-Recovery Ventilators |
6.2.1.6.(2) 9.32.3.11.(2) |
|
|
270. |
CSA |
CAN/CSA-C448.1-02 |
Design and Installation of Earth Energy Systems for Commercial and Institutional Buildings |
6.2.1.4.(4) |
|
|
271. |
CSA |
CAN/CSA-C448.2-02 |
Design and Installation of Earth Energy Systems for Residential and Other Small Buildings |
6.2.1.4.(3) |
|
|
272. |
CSA |
F280-12 |
Determining the Required Capacity of Residential Space Heating and Cooling Appliances |
6.2.1.1.(1) 9.33.2.2.(3) |
|
|
273. |
CSA |
CAN/CSA-F326-M91 |
Residential Mechanical Ventilation Systems |
6.2.1.1.(1) |
|
|
274. |
CSA |
CAN/CSA-F379.1-09 |
Packaged Solar Domestic Hot Water Systems (Liquid-to-Liquid Heat Transfer) |
7.2.10.13.(1) 7.6.2.5.(3) 7.6.2.5.(4) |
|
|
275. |
CSA |
F383-08 |
Installation of Packaged Solar Domestic Hot Water Systems |
7.6.1.13.(1) |
|
|
276. |
CSA |
G30.18-09 |
Carbon Steel Bars for Concrete Reinforcement |
9.3.1.1.(4) 9.39.1.3.(1) |
|
|
277. |
CSA |
G40.21-04 |
General Requirements for Rolled or Welded Structural Quality Steel |
4.2.3.8.(1) Table 5.10.1.1. 9.23.4.3.(2) |
|
|
278. |
CSA |
CAN/CSA-G164-M92 |
Hot Dip Galvanising of Irregularly Shaped Articles |
4.4.4.1.(4) |
|
|
279. |
CSA |
CAN/CSA-G401-07 |
Corrugated Steel Pipe Products |
Table 5.10.1.1. 7.2.6.8.(1) 9.14.3.1.(1) |
|
|
280. |
CSA |
CAN/CSA-O80 Series-08 |
Wood Preservation |
3.1.4.5.(1) 4.2.3.2.(1) 4.2.3.2.(2) Table 5.10.1.1. |
|
|
281. |
CSA |
CAN/CSA-O80.1-08 |
Specification of Treated Wood |
9.3.2.9.(6) |
|
|
282. |
CSA |
CAN/CSA-O80.2-08 |
Processing and Treatment |
4.2.3.2.(1) |
|
|
283. |
CSA |
CAN/CSA-O80.3-08 |
Preservative Formulations |
4.2.3.2.(1) |
|
|
284. |
CSA |
O80.15-97 |
Preservative Treatment of Wood for Building Foundation Systems, Basements and Crawl Spaces by Pressure Processes |
4.2.3.2.(1) |
|
|
285. |
CSA |
O86-09 |
Engineering Design in Wood |
Table 4.1.8.9. 4.3.1.1.(1) |
|
|
286. |
CSA |
O115-M1982 |
Hardwood and Decorative Plywood |
Table 5.10.1.1. 9.27.8.1.(1) 9.30.2.2.(1) |
|
|
287. |
CSA |
O118.1-08 |
Western Red Cedar Shakes and Shingles |
Table 5.10.1.1. 9.26.2.1.(1) 9.27.7.1.(1) |
|
|
288. |
CSA |
O118.2-08 |
Eastern White Cedar Shingles |
Table 5.10.1.1. 9.26.2.1.(1) 9.27.7.1.(1) |
|
|
289. |
CSA |
O121-08 |
Douglas Fir Plywood |
Table 5.10.1.1. 9.23.14.2.(1) 9.23.15.2.(1) Table 9.23.16.2.A. 9.27.8.1.(1) 9.30.2.2.(1) Table A-13 Table A-14 Table A-15 |
|
|
290. |
CSA |
CAN/CSA-O122-06 |
Structural Glued-Laminated Timber |
Table A-11 Table A-16 |
|
|
291. |
CSA |
CAN/CSA-O132.2 Series-90 |
Wood Flush Doors |
9.7.4.3.(4) |
|
|
292. |
CSA |
O141-05 |
Softwood Lumber |
Table 5.10.1.1. 9.3.2.6.(1) |
|
|
293. |
CSA |
O151-09 |
Canadian Softwood Plywood |
Table 5.10.1.1. 9.23.14.2.(1) 9.23.15.2.(1) Table 9.23.16.2.A. 9.27.8.1.(1) 9.30.2.2.(1) Table A-13 Table A-14 Table A-15 |
|
|
294. |
CSA |
O153-M1980 |
Poplar Plywood |
Table 5.10.1.1. 9.23.14.2.(1) 9.23.15.2.(1) Table 9.23.16.2.A. 9.27.8.1.(1) 9.30.2.2.(1) |
|
|
295. |
CSA |
O177-06 |
Qualification Code for Manufacturers of Structural Glued-Laminated Timber |
4.3.1.2.(1) Table A-11 Table A-16 |
|
|
296. |
CSA |
O325-07 |
Construction Sheathing |
Table 5.10.1.1. 9.23.14.2.(1) 9.23.14.4.(2) Table 9.23.14.5.B. 9.23.15.2.(1) 9.23.15.3.(2) Table 9.23.15.7.B. Table 9.23.16.2.B. 9.29.9.1.(2) 9.29.9.2.(5) Table A-13 Table A-14 Table A-15 |
|
|
297. |
CSA |
O437.0-93 |
OSB and Waferboard |
Table 5.10.1.1. 9.23.14.2.(1) 9.23.14.4.(2) 9.23.15.2.(1) 9.23.15.3.(2) Table 9.23.16.2.A. 9.27.10.1.(1) 9.29.9.1.(2) 9.30.2.2.(1) Table A-13 Table A-14 Table A-15 |
|
|
298. |
CSA |
S16-09 |
Design of Steel Structures |
Table 4.1.8.9. 4.3.4.1.(1) |
|
|
299. |
CSA |
CAN/CSA-S136-07 |
North American Specifications for the Design of Cold Formed Steel Structural Members (using the Appendix B provisions applicable to Canada) |
Table 4.1.8.9. 4.3.4.2.(1) |
|
|
300. |
CSA |
CAN/CSA-S157-05 / S157.1-05 |
Strength Design in Aluminum / Commentary on CSA S157-05, Strength Design in Aluminum |
4.3.5.1.(1) |
|
|
301. |
CSA |
S304.1-04 |
Design of Masonry Structures |
Table 4.1.8.9. 4.3.2.1.(1) |
|
|
301. |
CSA |
S307-M1980 |
Load Test Procedure for Wood Roof Trusses for Houses and Small Buildings |
9.23.13.11.(5) |
|
|
303. |
CSA |
S367-09 |
Air-, Cable-, and Frame-Membrane Supported Structures |
4.4.1.1.(1) |
|
|
304. |
CSA |
CAN/CSA-S406-92 |
Construction of Preserved Wood Foundations |
9.13.2.8.(1) 9.15.2.4.(1) 9.16.5.1.(1) |
|
|
305. |
CSA |
S413-07 |
Parking Structures |
4.4.2.1.(1) |
|
|
306. |
CSA |
S478-95 |
Guideline on Durability in Buildings |
5.1.4.2.(3) Table 5.10.1.1. |
|
|
307. |
CSA |
Z32-09 |
Electrical Safety and Essential Electrical Systems in Health Care Facilities |
3.2.7.3.(4) 3.2.7.6.(1) 3.7.5.1.(1) |
|
|
308. |
CSA |
CAN/CSA-Z91-02 |
Health and Safety Code for Suspended Equipment Operations |
4.4.4.1.(1) |
|
|
309. |
CSA |
Z240 MH Series-09 |
Manufactured Homes |
3.1.1.1.(2) of Division C 3.2.4.1.(3) of Division C |
|
|
310. |
CSA |
Z240.2.1-09 |
Structural Requirements for Manufactured Homes |
9.1.1.9.(1) 9.12.2.2.(6) 9.15.1.3.(1) |
|
|
311. |
CSA |
Z240.10.1-08 |
Site Preparation, Foundation and Anchorage of Manufactured Homes |
9.15.1.3.(1) 9.23.6.3.(1) |
|
|
312. |
CSA |
CAN/CSA-Z241 Series-03 |
Park Model Trailers |
9.38.1.1.(1) 9.38.2.1.(1) 3.1.1.1.(2) of Division C 3.2.4.1.(3) of Division C |
|
|
313. |
CSA |
CAN/CSA-Z317.2-10 |
Special Requirements for Heating, Ventilation and Air Conditioning (HVAC) Systems in Health Care Facilities |
6.2.1.1.(1) |
|
|
314. |
CSA |
CAN/CSA-Z662-11 / Z662.1-11 |
Oil and Gas Pipeline Systems / Commentary on CAN/CSA-Z662-11, Oil and Gas Pipeline Systems |
3.2.3.21.(1) |
|
|
315. |
CSA |
Z7396.1-09 |
Medical Gas Piping Systems - Part 1: Pipelines for Medical Gases and Vacuum |
3.7.5.2.(1) |
|
|
316. |
CSA / IAPMO |
CSA B45.5-11 / IAPMO Z124-2011 |
Plastic Plumbing Fixtures |
7.2.2.2.(6) |
|
|
317. |
CWC |
2009 |
Engineering Guide for Wood Frame Construction |
9.4.1.1.(1) |
|
|
318. |
DBR |
Technical Paper No. 194, May 1965 |
Fire Endurance of Protected Steel Columns and Beams |
Table 11.5.1.1.A. Table 11.5.1.1.B. Table 11.5.1.1.C. Table 11.5.1.1.D/E. Table 11.5.1.1.F. |
|
|
319. |
DBR |
Technical Paper No. 207, October 1965 |
Fire Endurance of Unit Masonry Walls |
Table 11.5.1.1.A. Table 11.5.1.1.B. Table 11.5.1.1.C. Table 11.5.1.1.D/E. Table 11.5.1.1.F. |
|
|
320. |
DBR |
Technical Paper No. 222, June 1966 |
Fire Endurance of Light-Framed and Miscellaneous Assemblies |
Table 11.5.1.1.A. Table 11.5.1.1.B. Table 11.5.1.1.C. Table 11.5.1.1.D/E. Table 11.5.1.1.F. |
|
|
321. |
EPA |
625/R-92/016 (1994) |
Radon Prevention in the Design and Construction of Schools and Other Large Buildings |
6.2.1.1.(1) |
|
|
322. |
FINA |
2009 |
Rules and Regulations - FINA Facilities Rules 2009-2013 - FR5 Diving Facilities |
3.11.4.1.(17) |
|
|
323. |
HI |
2005 |
Hydronics Institute Manuals |
6.2.1.1.(1) |
|
|
324. |
HRAI |
2005 |
Digest |
6.2.1.1.(1) 6.2.3.5.(1) 6.2.4.3.(13) |
|
|
325. |
HUD |
Rehabilitation Guidelines 2000 |
Guideline on Fire Ratings of Archaic Materials and Assemblies |
Table 11.5.1.1.A. Table 11.5.1.1.B. Table 11.5.1.1.C. Table 11.5.1.1.D/E. Table 11.5.1.1.F. |
|
|
326. |
HVI |
HVI 915-2009 |
Procedure for Loudness Rating of Residential Fan Products |
9.32.3.9.(2) Table 9.32.3.9. |
|
|
327. |
HVI |
HVI 916-2009 |
Airflow Test Procedure |
9.32.3.9.(1) |
|
|
328. |
ISO |
3864-1: 2011 |
Graphical Symbols – Safety Colours and Safety Signs – Part 1: Design Principles for Safety Signs and Safety Markings |
3.4.5.1.(2) 9.9.11.3.(2) |
|
|
329. |
ISO |
7010: 2003 |
Graphical Symbols - Safety Colours and Safety Signs - Safety Signs Used in Workplaces and Public Areas |
3.4.5.1.(2) 9.9.11.3.(2) |
|
|
330. |
ISO |
8201: 1987(E) |
Acoustics - Audible Emergency Evacuation Signal |
3.2.4.20.(2) |
|
|
331. |
ISO |
23599: 2012 |
Assistive Products for Blind and Vision-Impaired Persons – Tactile Walking Surface Indicators |
3.8.3.18.(1) |
||
332. |
MMAH |
Supplementary Standard SA-1, September 2, 2014 |
Objectives and Functional Statements Attributed to the Acceptable Solutions |
1.2.1.1.(1) of Division A 1.2.1.1.(2) of Division A |
|
|
333. |
MMAH |
Supplementary Standard SB-1, September 2, 2014 |
Climatic and Seismic Data |
1.1.2.1.(1) 1.1.2.1.(2) 3.2.6.2.(2) 3.3.1.7.(1) 5.2.1.1.(1) 5.2.1.1.(2) 6.2.1.1.(1) 6.2.1.7.(1) 7.4.10.4.(1) 9.4.1.1.(3) 9.4.2.2.(1) Table 9.25.5.2. Table 9.32.3.10.A. 9.33.3.2.(1) |
|
|
334. |
MMAH |
Supplementary Standard SB-2, September 2, 2014 |
Fire Performance Ratings |
3.1.5.23.(1) 3.1.7.1.(2) 3.1.8.14.(2) 3.1.9.5.(1) 3.1.9.5.(2) 3.1.12.1.(3) 3.2.3.12.(1) 3.2.3.13.(4) 3.13.2.1.(8) 3.13.3.5.(1) 3.13.3.6.(2) 3.13.4.2.(7) 9.10.3.1.(1) 9.10.3.2.(1) 9.10.5.1.(4) 9.10.9.9.(1) 9.10.13.14.(1) |
|
|
335. |
MMAH |
Supplementary Standard SB-3, September 2, 2014 |
Fire and Sound Resistance of Building Assemblies |
9.10.3.1.(1) 9.10.5.1.(4) 9.11.2.1.(1) 9.11.2.1.(2) |
|
|
336. |
MMAH |
Supplementary Standard SB-4, September 14, 2012 |
Measures for Fire Safety in High Buildings |
3.2.6.2.(1) 3.2.6.2.(6) 3.2.6.5.(3) 3.2.6.9.(1) 3.2.6.10.(2) 3.2.6.14.(1) Table 11.5.1.1.C. Table 11.5.1.1.D/E. Table 11.5.1.1.F. |
|
|
337. |
MMAH |
Supplementary Standard SB-5, September 1, 2013 |
Approved Sewage Treatment Units |
8.6.2.2.(5) |
|
|
338. |
MMAH |
Supplementary Standard SB-6, September 14, 2012 |
Percolation Times and Soil Descriptions |
8.2.1.2.(2) |
|
|
339. |
MMAH |
Supplementary Standard SB-7, September 14, 2012 |
Guards for Housing and Small Buildings |
9.8.8.2.(5) |
|
|
340. |
MMAH |
Supplementary Standard SB-8, September 14, 2012 |
Design, Construction and Installation of Anchorage Systems for Fixed Access Ladders |
3.6.1.5.(1) |
|
|
341. |
MMAH |
Supplementary Standard SB-9, September 14, 2012 |
Requirements for Soil Gas Control |
9.13.4.1.(1) 9.13.4.2.(2) to (4) |
|
|
342. |
MMAH |
Supplementary Standard SB-10, September 14, 2012 |
Energy Efficiency Requirements |
Table 9.7.3.3. 12.2.1.1.(2) 12.2.1.2.(2) 12.2.2.1.(1) 12.2.3.1.(1) |
|
|
343. |
MMAH |
Supplementary Standard SB-11, September 14, 2012 |
Construction of Farm Buildings |
1.3.1.2.(4) of Division A |
|
|
344. |
MMAH |
Supplementary Standard SB-12, September 2, 2014 |
Energy Efficiency for Housing |
Table 9.7.3.3. Table 11.5.1.1.C. 12.2.1.1.(3) 12.2.1.2.(3) |
|
|
345. |
MMAH |
Supplementary Standard SB-13, September 14, 2012 |
Glass in Guards |
3.1.20.1.(1) |
|
|
346. |
MMAH |
Supplementary Standard SC-1, September 14, 2012 |
Code of Conduct for Registered Code Agencies |
3.7.4.1.(2) of Division C |
|
|
347. |
MOE |
PIBS 6879 2008 |
Design Guidelines for Sewage Works |
7.1.5.5.(2) |
|
|
348. |
MOE |
PIBS 6881e 2008 |
Design Guidelines for Drinking-Water Systems |
7.1.5.5.(1) |
|
|
349. |
NFPA |
2014 Publication |
National Fire Codes |
6.2.1.1.(1) |
|
|
350. |
NFPA |
13-2013 |
Installation of Sprinkler Systems |
3.1.9.1.(4) 3.2.4.9.(2) 3.2.4.17.(1) 3.2.5.13.(1) 3.2.8.4.(7) 3.3.2.12.(3) 3.15.1.1.(3) 3.15.1.1.(4) 3.15.1.5.(2) 3.15.1.6.(2) 3.15.2.1.(1) 3.15.2.2.(1) 3.15.3.1.(1) 9.10.9.6.(11) |
|
|
351. |
NFPA |
13D-2010 |
Installation of Sprinkler Systems in One- and Two-Family Dwellings and Manufactured Homes |
3.2.5.13.(3) |
|
|
352. |
NFPA |
13R-2010 |
Installation of Sprinkler Systems in Residential Occupancies up to and including Four Stories in Height |
3.2.5.13.(2) |
|
|
353. |
NFPA |
14-2010 |
Installation of Standpipe and Hose Systems |
3.2.9.2.(1) |
|
|
354. |
NFPA |
20-2010 |
Installation of Stationary Pumps for Fire Protection |
3.2.4.10.(4) 3.2.5.19.(1) |
|
|
355. |
NFPA |
24-2013 |
Installation of Fire Service Mains and Their Appurtenances |
7.2.11.1.(1) |
|
|
356. |
NFPA |
68-2007 |
Explosion Protection by Deflagration Venting |
3.3.6.3.(1) 3.3.6.4.(2) 3.3.6.4.(4) |
|
|
357. |
NFPA |
72-2013 |
National Fire Alarm and Signaling Code |
3.2.4.22.(13) 9.10.19.1.(2) 9.10.19.3.(3) |
|
|
358. |
NFPA |
80-2010 |
Fire Doors and Other Opening Protectives |
3.1.8.5.(2) 3.1.8.10.(2) 3.1.8.14.(1) 3.1.9.1.(5) 3.13.3.1.(2) 9.10.9.6.(13) 9.10.13.1.(1) |
|
|
359. |
NFPA |
82-2009 |
Incinerators, Waste and Linen Handling Systems and Equipment |
6.2.6.1.(1) 9.10.10.5.(2) |
|
|
360. |
NFPA |
91-2010 |
Exhaust Systems for Air Conveying of Vapors, Gases, Mists and Noncombustible Particulate Solids |
6.2.13.4.(1) |
|
|
361. |
NFPA |
96-2011 |
Ventilation Control and Fire Protection of Commercial Cooking Operations |
3.2.4.9.(2) 6.2.2.6.(1) |
|
|
362. |
NFPA |
130-2010 |
Fixed Guideway Transit and Passenger Rail Systems |
3.13.7.1.(1) |
|
|
363. |
NFPA |
211-2010 |
Chimneys, Fireplaces, Vents and Solid Fuel-Burning Appliances |
6.3.1.2.(2) 6.3.1.3.(1) |
|
|
364. |
NFPA |
214-2011 |
Water-Cooling Towers |
6.2.3.14.(3) |
|
|
365. |
NFPA |
701-2010 |
Fire Tests for Flame Propagation of Textiles and Films |
3.14.1.6.(1) 3.14.2.5.(1) |
|
|
366. |
NLGA |
2010 |
Standard Grading Rules for Canadian Lumber |
1.4.1.2.(1) of Division A 9.3.2.1.(1) Table 9.3.2.1. Tables A-1 to A-10 |
|
|
367. |
NRCan |
January 2005, including all amendments, revisions and supplements effective to May 31, 2006 |
EnerGuide for New Houses: Administrative and Technical Procedures |
12.2.1.1.(3) 12.2.1.2.(3) |
|
|
368. |
NSF |
NSF/ANSI 46-2010 |
Evaluation of Components and Devices Used in Wastewater Treatment Systems |
8.6.2.1.(2) |
|
|
369. |
NSF |
NSF/ANSI 61-2013 |
Drinking Water System Components - Health Effects |
7.2.10.7.(1) |
|
|
370. |
SMACNA |
ANSI/SMACNA 006-2006, 3rd Edition 2005 |
HVAC Duct Construction Standards - Metal and Flexible |
6.2.1.1.(1) 6.2.4.2.(3) 6.2.4.3.(11) 6.2.4.3.(12) |
|
|
371. |
TPIC |
2011 |
Truss Design Procedures and Specifications for Light Metal Plate Connected Wood Trusses (Limit States Design) |
9.23.13.11.(6) |
|
|
372. |
UL |
ANSI/UL 300-2005 |
Fire Extinguishing Systems for Protection of Commercial Cooking Equipment |
6.2.2.6.(2) |
|
|
373. |
UL |
UL 2034-2008 |
Single and Multiple Station Carbon Monoxide Alarms |
6.2.12.3.(1) 9.33.4.3.(1) |
|
|
374. |
ULC |
CAN/ULC-S101-07 |
Fire Endurance Tests of Building Construction and Materials |
3.1.5.12.(3) 3.1.5.12.(4) 3.1.5.12.(6) 3.1.7.1.(1) 3.1.11.7.(1) 3.2.3.8.(1) 3.2.6.5.(6) 9.10.16.3.(1) |
|
|
375. |
ULC |
CAN/ULC-S102-10 |
Test for Surface Burning Characteristics of Building Materials and Assemblies |
3.1.5.25.(1) 3.1.12.1.(1) |
|
|
376. |
ULC |
CAN/ULC-S102.2-10 |
Test for Surface Burning Characteristics of Flooring, Floor Coverings, and Miscellaneous Materials and Assemblies |
3.1.12.1.(2) 3.1.13.4.(1) |
|
|
377. |
ULC |
CAN/ULC-S102.3-07 |
Fire Test of Light Diffusers and Lenses |
3.1.13.4.(1) |
|
|
378. |
ULC |
CAN/ULC-S102.4-10 |
Fire and Smoke Characteristics of Electrical Wiring and Cables |
3.1.5.18.(1) 3.1.5.20.(2) 3.6.4.3.(1) |
|
|
379. |
ULC |
CAN/ULC-S104-10 |
Fire Tests of Door Assemblies |
3.1.8.4.(1) 3.2.6.5.(3) |
|
|
380. |
ULC |
CAN/ULC-S105-09 |
Fire Door Frames Meeting the Performance Required by CAN4-S104 |
9.10.13.6.(1) |
|
|
381. |
ULC |
CAN4-S106-M80 |
Fire Tests of Window and Glass Block Assemblies |
3.1.8.4.(1) |
|
|
382. |
ULC |
CAN/ULC-S107-10 |
Fire Tests of Roof Coverings |
3.1.15.1.(1) |
|
|
383. |
ULC |
CAN/ULC-S109-03 |
Flame Tests of Flame-Resistant Fabrics and Films |
3.1.16.1.(1) 3.14.1.6.(1) 3.14.2.5.(1) 6.2.3.16.(1) 6.2.3.17.(1) 6.2.4.9.(1) |
|
|
384. |
ULC |
CAN/ULC-S110-07 |
Test for Air Ducts |
6.2.3.2.(2) 6.2.3.2.(4) |
|
|
385. |
ULC |
ULC-S111-07 |
Fire Tests for Air Filter Units |
6.2.3.13.(1) 6.2.4.14.(1) |
|
|
386. |
ULC |
CAN/ULC-S112-10 |
Fire Test of Fire-Damper Assemblies |
3.1.8.4.(1) |
|
|
387. |
ULC |
CAN/ULC-S112.1-10 |
Leakage Rated Dampers for Use in Smoke Control Systems |
6.2.3.9.(3) |
|
|
388. |
ULC |
CAN/ULC-S112.2-10 |
Fire Test of Ceiling Firestop Flap Assemblies |
3.1.9.5.(2) 3.6.4.3.(2) |
|
|
389. |
ULC |
CAN/ULC-S113-07 |
Wood Core Doors Meeting the Performance Required by CAN/ULC-S104 for Twenty Minute Fire Rated Closure Assemblies |
9.10.13.2.(1) |
|
|
390. |
ULC |
CAN/ULC-S114-05 |
Test for Determination of Non-Combustibility in Building Materials |
1.4.1.2.(1) of Division A |
|
|
391. |
ULC |
CAN/ULC-S115-11 |
Fire Tests of Firestop Systems |
3.1.5.16.(3) 3.1.9.1.(1) 3.1.9.1.(2) 3.1.9.1.(3) 3.1.9.3.(7) 3.1.9.4.(3) 3.1.9.4.(7) 9.10.9.6.(2) 9.10.9.7.(3) |
|
|
392. |
ULC |
CAN/ULC-S124-06 |
Test for the Evaluation of Protective Coverings for Foamed Plastic |
3.1.5.12.(2) |
|
|
393. |
ULC |
CAN/ULC-S126-06 |
Test for Fire Spread Under Roof-Deck Assemblies |
3.1.14.1.(1) 3.1.14.2.(1) |
|
|
394. |
ULC |
CAN/ULC-S134-92 |
Fire Test of Exterior Wall Assemblies |
3.1.5.5.(1) 3.2.3.7.(3) 3.2.3.7.(6) |
|
|
395. |
ULC |
CAN/ULC-S135-04 |
Test Method for the Determination of Combustibility Parameters of Building Materials Using an Oxygen Consumption Calorimeter (Cone Calorimeter) |
3.1.5.1.(2) |
|
|
396. |
ULC |
CAN/ULC-S138-06 |
Fire Test for Fire Growth of Insulated Building Panels in a Full-Scale Room Configuration |
3.1.5.12.(7) |
|
|
397. |
ULC |
ULC-S139-00 |
Fire Test for Evaluation of Integrity of Electrical Cables |
3.2.7.10.(2) 3.2.7.10.(3) |
|
|
398. |
ULC |
CAN/ULC-S143-09 |
Fire Tests for Non-Metallic Electrical and Optical Fibre Cable Raceways |
3.1.5.20.(1) |
|
|
399. |
ULC |
S505-1974 |
Fusible Links for Fire Protection Service |
3.1.8.9.(1) |
|
|
400. |
ULC |
S513-1978 |
Threaded Couplings for 38 mm and 65 mm Fire Hose |
3.2.9.2.(7) |
|
|
401. |
ULC |
CAN/ULC-S524-06 |
Installation of Fire Alarm Systems |
3.1.8.12.(2) 3.1.8.12.(3) 3.2.4.5.(1) 3.2.4.22.(6) 3.2.4.22.(11) 9.10.19.4.(3) 9.10.19.6.(2) |
|
|
402. |
ULC |
CAN/ULC-S531-02 |
Smoke Alarms |
3.2.4.22.(1) 9.10.19.1.(1) |
|
|
403. |
ULC |
CAN/ULC-S537-04 |
Verification of Fire Alarm Systems |
3.2.4.5.(2) 3.2.4.22.(6) |
|
|
404. |
ULC |
CAN/ULC-S543-09 |
Internal Lug Quick Connect Couplings for Fire Hose |
3.2.9.2.(7) |
|
|
405. |
ULC |
CAN/ULC-S553-02 |
Installation of Smoke Alarms |
3.2.4.22.(9) 9.10.19.3.(2) |
|
|
406. |
ULC |
CAN/ULC-S561-03 |
Installation and Services for Fire Signal Receiving Centres and Systems |
3.2.4.8.(4) |
|
|
407. |
ULC |
CAN/ULC-S572-10 |
Photoluminescent and Self-Luminous Signs and Path Marking Systems |
3.4.5.1.(5) 9.9.11.3.(3) |
|
|
408. |
ULC |
CAN/ULC-S610-M87 |
Factory-Built Fireplaces |
9.22.8.1.(1) |
|
|
409. |
ULC |
S628-93 |
Fireplace Inserts |
9.22.10.1.(1) |
|
|
410. |
ULC |
CAN/ULC-S629-M87 |
650ºC Factory-Built Chimneys |
9.21.1.2.(1) |
|
|
411. |
ULC |
CAN/ULC-S639-M87 |
Steel Liner Assemblies for Solid Fuel-Burning Masonry Fireplaces |
9.22.2.3.(1) |
|
|
412. |
ULC |
CAN/ULC-S701-11 |
Thermal Insulation, Polystyrene, Boards and Pipe Covering |
Table 5.10.1.1. 9.15.4.1.(1) Table 9.23.16.2.A. 9.25.2.2.(1) 9.25.2.2.(4) |
|
|
413. |
ULC |
CAN/ULC-S702-09 |
Mineral Fibre Thermal Insulation for Buildings |
Table 5.10.1.1. Table 9.23.16.2.A. 9.25.2.2.(1) |
|
|
414. |
ULC |
CAN/ULC-S703-09 |
Cellulose Fibre Insulation (CFI) for Buildings |
Table 5.10.1.1. 9.25.2.2.(1) |
|
|
415. |
ULC |
CAN/ULC-S704-11 |
Thermal Insulation, Polyurethane and Polyisocyanurate Boards, Faced |
Table 5.10.1.1. Table 9.23.16.2.A. 9.25.2.2.(1) |
|
|
416. |
ULC |
CAN/ULC-S705.1-01 |
Thermal Insulation - Spray Applied Rigid Polyurethane Foam, Medium Density - Material - Specification |
Table 5.10.1.1. 9.25.2.2.(1) |
|
|
417. |
ULC |
CAN/ULC-S705.2-05 |
Thermal Insulation - Spray Applied Rigid Polyurethane Foam, Medium Density - Application |
5.3.1.3.(3) Table 5.10.1.1. 9.25.2.5.(1) |
|
|
418. |
ULC |
CAN/ULC-S706-09 |
Wood Fibre Thermal Insulation for Buildings |
Table 5.10.1.1. 9.23.15.7.(3) Table 9.23.16.2.A. 9.25.2.2.(1) 9.29.8.1.(1) |
|
|
419. |
ULC |
CAN/ULC-S716.1-12 |
Exterior Insulation and Finish Systems (EIFS) – Materials and Systems |
5.10.3.1.(1) 9.27.13.1.(1) 9.27.13.2.(1) |
|
|
420. |
ULC |
CAN/ULC-S716.2-12 |
Exterior Insulation and Finish Systems (EIFS) – Installation of EIFS Components and Water Resistive Barrier |
9.27.13.3.(2) |
|
|
421. |
ULC |
CAN/ULC-S716.3-12 |
Exterior Insulation and Finish Systems (EIFS) – Design Application |
9.27.13.3.(1) |
|
|
422. |
ULC |
CAN/ULC-S741-08 |
Air Barrier Materials - Specification |
5.4.1.2.(1) |
|
|
423. |
ULC |
ULC/ORD-C263.1-99 |
Sprinkler-Protected Window Systems |
3.1.8.18.(1) |
|
|
424. |
ULC |
ULC/ORD-C199P-02 |
Combustible Piping for Sprinkler Systems |
3.2.5.14.(2) 3.2.5.14.(5) |
|
|
425. |
ULC |
ULC/ORD-C1254.6-1995 |
Fire Testing of Restaurant Cooking Area Fire Extinguishing System Units |
6.2.2.6.(2) 3.6.4.3.(1) |
|
|
426. |
USDA |
October 1993 |
Soil Survey Manual |
8.2.1.2.(2) |
|
|
Notes to Table 1.3.1.2.:
(1) Some titles have been abridged to omit superfluous wording.
Note: On January 1, 2017, Item 337 is revoked. (See: O. Reg. 332/12, Sentences 4.2.1.1.(2), 4.4.1.1.(3))
1.3.2. Abbreviations
1.3.2.1. Abbreviations of Proper Names
(1) In this Code, an abbreviation of proper names listed in Column 1 of Table 1.3.2.1. has the meaning assigned opposite it in Column 2.
Table 1.3.2.1.
Abbreviations of Proper Names
Item |
Column 1 Abbreviation |
Column 2 Meaning |
1. |
ACGIH |
American Conference of Governmental Industrial Hygienists |
2. |
AISI |
American Iron and Steel Institute |
3. |
ANSI |
American National Standards Institute |
4. |
APHA |
American Public Health Association |
5. |
ASHRAE |
American Society of Heating, Refrigerating and Air-Conditioning Engineers |
6. |
ASME |
The American Society of Mechanical Engineers |
7. |
ASPE |
American Society of Plumbing Engineers |
8. |
ASSE |
American Society of Sanitary Engineering |
9. |
ASTM |
American Society for Testing and Materials |
10. |
AWPA |
American Wood-Preservers’ Association |
11. |
AWS |
American Welding Society |
12. |
AWWA |
American Water Works Association |
13. |
BCMOH |
British Columbia Ministry of Health |
14. |
BNQ |
Bureau de Normalisation du Québec |
15. |
CAN |
National Standard of Canada designation |
|
|
The number or name following the CAN designation represents the agency under whose auspices the standard is issued. |
|
|
|
|
|
CAN1 designates CGA, |
|
|
CAN2 designates CGSB, |
|
|
CAN3 designates CSA, and |
|
|
CAN4 designates ULC. |
16. |
CCBFC |
Canadian Commission on Building and Fire Codes |
17. |
CGSB |
Canadian General Standards Board |
18. |
CSA |
Canadian Standards Association |
19. |
CWC |
Canadian Wood Council |
20. |
DBR |
Division of Building Research, known as the Institute for Research in Construction since 1985 |
|
|
|
21. |
EPA |
Environmental Protection Agency |
22. |
FINA |
Fédération Internationale de Natation |
23. |
HI |
Hydronics Institute |
24. |
HRAI |
Heating, Refrigerating and Air-Conditioning Institute of Canada |
25. |
HUD |
U.S. Department of Housing and Urban Development |
26. |
HVI |
Home Ventilating Institute |
27. |
IESNA |
Illuminating Engineering Society of North America |
28. |
ISO |
International Organization for Standardization |
29. |
MMAH |
Ontario Ministry of Municipal Affairs and Housing |
30. |
MOE |
Ontario Ministry of the Environment |
31. |
NFPA |
National Fire Protection Association |
32. |
NLGA |
National Lumber Grades Authority |
33. |
NRCan |
Natural Resources Canada |
34 |
NSF |
NSF International, formerly called National Sanitation Federation |
35. |
SMACNA |
Sheet Metal and Air Conditioning Contractors National Association Inc. |
36. |
TC |
Transport Canada |
37. |
TPIC |
Truss Plate Institute of Canada |
38. |
UL |
Underwriters Laboratories Inc. |
39. |
ULC |
Underwriters’ Laboratories of Canada |
40. |
USDA |
United States Department of Agriculture |
41. |
WEF |
World Environment Federation |
O. Reg. 332/12, Division B, Part 1; O. Reg. 361/13, ss. 3 (1-9, 11-19), 4.
Note: On January 1, 2015, Table 1.3.2.1. is revoked and the following substituted: (See: O. Reg. 191/14, ss. 7, 168 (2))
Table 1.3.2.1.
Abbreviations of Proper Names
Item |
Column 1 Abbreviation |
Column 2 Meaning |
1. |
ACGIH |
American Conference of Governmental Industrial Hygienists |
2. |
AISI |
American Iron and Steel Institute |
3. |
ANSI |
American National Standards Institute |
4. |
APHA |
American Public Health Association |
5. |
ASHRAE |
American Society of Heating, Refrigerating and Air-Conditioning Engineers |
6. |
ASME |
The American Society of Mechanical Engineers |
7. |
ASPE |
American Society of Plumbing Engineers |
8. |
ASSE |
American Society of Sanitary Engineering |
9. |
ASTM |
American Society for Testing and Materials |
10. |
AWPA |
American Wood-Preservers’ Association |
11. |
AWS |
American Welding Society |
12. |
AWWA |
American Water Works Association |
13. |
BCMOH |
British Columbia Ministry of Health |
14. |
BNQ |
Bureau de Normalisation du Québec |
15. |
CAN |
National Standard of Canada designation The number or name following the CAN designation represents the agency under whose auspices the standard is issued. CAN1 designates CGA, CAN2 designates CGSB, CAN3 designates CSA, and CAN4 designates ULC. |
16. |
CCBFC |
Canadian Commission on Building and Fire Codes |
17. |
CGSB |
Canadian General Standards Board |
18. |
CSA |
Canadian Standards Association |
19. |
CWC |
Canadian Wood Council |
20. |
DBR |
Division of Building Research, known as the Institute for Research in Construction since 1985 |
21. |
EPA |
Environmental Protection Agency |
22. |
FINA |
Fédération Internationale de Natation |
23. |
HI |
Hydronics Institute |
24. |
HRAI |
Heating, Refrigerating and Air-Conditioning Institute of Canada |
25. |
HUD |
U.S. Department of Housing and Urban Development |
26. |
HVI |
Home Ventilating Institute |
27. |
IAPMO |
International Association of Plumbing and Mechanical Officials |
28. |
IESNA |
Illuminating Engineering Society of North America |
29. |
ISO |
International Organization for Standardization |
30. |
MMAH |
Ontario Ministry of Municipal Affairs and Housing |
31. |
MOE |
Ontario Ministry of the Environment |
32. |
NFPA |
National Fire Protection Association |
33. |
NLGA |
National Lumber Grades Authority |
34. |
NRCan |
Natural Resources Canada |
35 |
NSF |
NSF International, formerly called National Sanitation Federation |
36. |
SMACNA |
Sheet Metal and Air Conditioning Contractors National Association Inc. |
37. |
TC |
Transport Canada |
38. |
TPIC |
Truss Plate Institute of Canada |
39. |
UL |
Underwriters Laboratories Inc. |
40. |
ULC |
Underwriters’ Laboratories of Canada |
41. |
USDA |
United States Department of Agriculture |
42. |
WEF |
World Environment Federation |
Part 2
(Reserved)
Part 3
Fire Protection, Occupant Safety and Accessibility
Section |
3.1. |
General |
|
3.1.1. |
Scope |
|
3.1.2. |
Classification of Buildings or Parts of Buildings by Major Occupancy |
|
3.1.3. |
Multiple Occupancy Requirements |
|
3.1.4. |
Combustible Construction |
|
3.1.5. |
Noncombustible Construction |
|
3.1.6. |
Reserved |
|
3.1.7. |
Fire-Resistance Ratings |
|
3.1.8. |
Fire Separations and Closures |
|
3.1.9. |
Penetrations in Fire Separations and Fire-Rated Assemblies |
|
3.1.10. |
Firewalls |
|
3.1.11. |
Fire Blocks in Concealed Spaces |
|
3.1.12. |
Flame-Spread Rating and Smoke Developed Classification |
|
3.1.13. |
Interior Finish |
|
3.1.14. |
Roof Assemblies |
|
3.1.15. |
Roof Covering |
|
3.1.16. |
Fabrics |
|
3.1.17. |
Occupant Load |
|
3.1.18. |
Drainage and Grades |
|
3.1.19. |
Above Ground Electrical Conductors |
|
3.1.20. |
Glass in Guards |
|
|
|
Section |
3.2. |
Building Fire Safety |
|
3.2.1. |
General |
|
3.2.2. |
Building Size and Construction Relative to Occupancy |
|
3.2.3. |
Spatial Separation and Exposure Protection |
|
3.2.4. |
Fire Alarm and Detection Systems |
|
3.2.5. |
Provisions for Firefighting |
|
3.2.6. |
Additional Requirements for High Buildings |
|
3.2.7. |
Lighting and Emergency Power Systems |
|
3.2.8. |
Mezzanines and Openings through Floor Assemblies |
|
3.2.9. |
Standpipe Systems |
|
|
|
Section |
3.3. |
Safety Within Floor Areas |
|
3.3.1. |
All Floor Areas |
|
3.3.2. |
Assembly Occupancy |
|
3.3.3. |
Care, Care and Treatment or Detention Occupancy |
|
3.3.4. |
Residential Occupancy |
|
3.3.5. |
Industrial Occupancy |
|
3.3.6. |
Design of Hazardous Areas |
|
|
|
Section |
3.4. |
Exits |
|
3.4.1. |
General |
|
3.4.2. |
Number and Location of Exits from Floor Areas |
|
3.4.3. |
Width and Height of Exits |
|
3.4.4. |
Fire Separation of Exits |
|
3.4.5. |
Exit Signs |
|
3.4.6. |
Types of Exit Facilities |
|
3.4.7. |
Fire Escapes |
|
|
|
Section |
3.5. |
Vertical Transportation |
|
3.5.1. |
General |
|
3.5.2. |
Elevator Requirements |
|
3.5.3. |
Fire Separations |
|
3.5.4. |
Dimensions and Signs |
|
|
|
Section |
3.6. |
Service Facilities |
|
3.6.1. |
General |
|
3.6.2. |
Service Rooms |
|
3.6.3. |
Vertical Service Spaces and Service Facilities |
|
3.6.4. |
Horizontal Service Spaces and Service Facilities |
|
|
|
Section |
3.7. |
Health Requirements |
|
3.7.1. |
Height and Area of Rooms |
|
3.7.2. |
Windows |
|
3.7.3. |
Reserved |
|
3.7.4. |
Plumbing Facilities |
|
3.7.5. |
Health Care Facility Systems |
|
3.7.6. |
Food Premises |
|
|
|
Section |
3.8. |
Barrier-Free Design |
|
3.8.1. |
General |
|
3.8.2. |
Occupancy Requirements |
|
3.8.3. |
Design Standards |
|
|
|
Section |
3.9. |
Portable Classrooms |
|
3.9.1. |
Scope |
|
3.9.2. |
Interior Finish |
|
3.9.3. |
Application |
|
|
|
Section |
3.10. |
Self-Service Storage Buildings |
|
3.10.1. |
Scope |
|
3.10.2. |
Requirements for All Buildings |
|
3.10.3. |
Additional Requirements for Buildings Containing more than 1 Storey |
|
3.10.4. |
Additional Requirements for 1 Storey Buildings |
|
|
|
Section |
3.11. |
Public Pools |
|
3.11.1. |
General |
|
3.11.2. |
Designations of Public Pools |
|
3.11.3. |
Pool and Pool Deck Design and Construction Requirements for All Class A and Class B Pools |
|
3.11.4. |
Public Pools Equipped with Diving Boards or Diving Platforms |
|
3.11.5. |
Ramps into Public Pools in Group B, Division 2 or 3, Major Occupancies |
|
3.11.5. |
Ramps into Public Pools |
|
3.11.6. |
Modified Pools |
|
3.11.7. |
Wave Action Pools |
|
3.11.8. |
Recirculation for Public Pools |
|
3.11.9. |
Dressing Rooms, Locker Facilities and Plumbing Facilities for All Public Pools |
|
3.11.10. |
Emergency Provisions for All Public Pools |
|
3.11.11. |
Service Rooms and Storage for All Public Pools |
|
|
|
Section |
3.12. |
Public Spas |
|
3.12.1. |
General |
|
3.12.2. |
Public Spa and Deck Design and Construction Requirements |
|
3.12.3. |
Ramps into Public Spas |
|
3.12.3. |
Ramps and Access into Public Spas |
|
3.12.4. |
Water Circulation for Public Spas |
|
3.12.5. |
Emergency Provisions for All Public Spas |
|
3.12.6. |
Service Rooms and Storage for All Public Spas |
|
|
|
Section |
3.13. |
Rapid Transit Stations |
|
3.13.1. |
Scope and Definitions |
|
3.13.2. |
Construction Requirements |
|
3.13.3. |
Safety Requirements Within Stations |
|
3.13.4. |
Means of Egress |
|
3.13.5. |
Fire Safety Provisions |
|
3.13.6. |
Required Sanitary Facilities |
|
3.13.7. |
Emergency Ventilation |
|
3.13.8. |
Barrier-Free Design |
|
|
|
Section |
3.14. |
Tents and Air-Supported Structures |
|
3.14.1. |
Tents |
|
3.14.2. |
Air-Supported Structures |
|
|
|
Section |
3.15. |
Signs |
|
3.15.1. |
Scope |
|
3.15.2. |
Alterations |
|
3.15.3 |
Structural Requirements |
|
3.15.4. |
Plastic Sign Facing Materials |
|
3.15.5 |
Location Restrictions |
|
|
|
Section |
3.16. |
Shelf and Rack Storage Systems |
|
3.16.1. |
Scope |
|
3.16.2. |
Storage of Class I, II, III and IV Commodities |
|
3.16.3. |
Storage of Group A, B and C Plastics and Rubber Tires |
|
|
|
Section |
3.17. |
Additional Requirements For Change of Use |
|
3.17. |
Additional Requirements for Existing Buildings |
|
3.17.1. |
Scope |
|
3.17.2. |
Additional Construction |
Section 3.1. General
3.1.1. Scope
3.1.1.1. Scope
(1) The scope of this Part shall be as described in Subsection 1.1.2. of Division A.
3.1.1.2. Radon
(1) In addition to all other requirements, a building in the following designated areas shall be designed and constructed so that the annual average concentration of radon 222 does not exceed 200 Bq/m3 of air and the annual average concentration of the short lived daughters of radon 222 does not exceed 0.02 working levels inside the building:
(a) the City of Elliot Lake in the Territorial District of Algoma,
(b) the Township of Faraday in the County of Hastings, and
(c) the geographic Township of Hyman in the Territorial District of Sudbury.
3.1.1.3. Building in Flood Plains
(1) Buildings constructed on flood plains shall,
(a) be designed and constructed in accordance with good engineering practice to withstand anticipated vertical and horizontal hydrostatic pressures acting on the structure, and
(b) incorporate floodproofing measures that will preserve the integrity of exits and means of egress during times of flooding.
3.1.2. Classification of Buildings or Parts of Buildings by Major Occupancy
3.1.2.1. Classification of Buildings
(1) Except as provided by Articles 3.1.2.3. to 3.1.2.7., every building or part of it shall be classified according to its major occupancy as belonging to one of the Groups or Divisions described in Table 3.1.2.1.
(2) A building intended for use by more than one major occupancy shall be classified according to all major occupancies for which it is used or intended to be used.
Table 3.1.2.1.
Major Occupancy Classification
Forming Part of Sentences 3.1.2.1.(1), 3.1.2.2.(1) and 3.11.2.1.(3)
Item |
Column 1 Group |
Column 2 Division |
Column 3 Description of Major Occupancies |
1. |
A |
1 |
Assembly occupancies intended for the production and viewing of the performing arts |
2. |
A |
2 |
Assembly occupancies not elsewhere classified in Group A |
3. |
A |
3 |
Assembly occupancies of the arena type |
4. |
A |
4 |
Assembly occupancies in which occupants are gathered in the open air |
5. |
B |
1 |
Detention occupancies |
6. |
B |
2 |
Care and treatment occupancies |
7. |
B |
3 |
Care occupancies |
8. |
C |
--- |
Residential occupancies |
9. |
D |
--- |
Business and personal services occupancies |
10. |
E |
--- |
Mercantile occupancies |
11. |
F |
1 |
High hazard industrial occupancies |
12. |
F |
2 |
Medium hazard industrial occupancies |
13. |
F |
3 |
Low hazard industrial occupancies |
3.1.2.2. Occupancies of the Same Classification
(1) Any building is deemed to be occupied by a single major occupancy, notwithstanding its use for more than one major occupancy, provided that all occupancies are classified as belonging to the same Group classification or, where the Group is divided into Divisions, as belonging to the same Division classification described in Table 3.1.2.1.
3.1.2.3. Arena Type Buildings
(1) An arena type building intended for occasional use for trade shows and similar exhibition purposes shall be classified as Group A, Division 3 occupancy.
3.1.2.4. Police Stations
(1) A police station with detention quarters is permitted to be classified as a Group B, Division 2 major occupancy provided the station is not more than 1 storey in building height and 600 m2 in building area.
3.1.2.5. Group B, Division 3 Occupancies
(1) Group B, Division 3 occupancies are permitted to be classified as Group C major occupancies provided,
(a) the occupants live as a single housekeeping unit in a suite with sleeping accommodation for not more than 10 persons, and
(b) not more than two occupants require assistance in evacuation in case of an emergency.
3.1.2.6. Restaurants
(1) A restaurant is permitted to be classified as a Group E major occupancy provided the restaurant is designed to accommodate not more than 30 persons consuming food or drink.
3.1.2.7. Storage of Combustible Fibres
(1) Buildings or parts of them used for the storage of baled combustible fibres shall be classified as medium hazard industrial occupancies.
3.1.3. Multiple Occupancy Requirements
3.1.3.1. Separation of Major Occupancies
(1) Except as permitted by Sentences (2) and (3), major occupancies shall be separated from adjoining major occupancies by fire separations having fire-resistance ratings conforming to Table 3.1.3.1.
Note: On January 1, 2015, Sentence (1) is amended by striking out “Except as permitted by Sentences (2) and (3)” at the beginning and substituting “Except as provided by Sentences (2) to (5)”. (See: O. Reg. 191/14, ss. 8 (1), 168 (2))
Table 3.1.3.1.
Major Occupancy Fire Separations(1)
Forming Part of Sentence 3.1.3.1.(1)
Item |
Column 1 |
Col. 2 |
Col. 3 |
Col. 4 |
Col. 5 |
Col. 6 |
Col. 7 |
Col. 8 |
Col. 9 |
Col. 10 |
Col. 11 |
Col. 12 |
Col. 13 |
Col. 14 |
|
Major Occupancy |
Minimum Fire-Resistance Rating of Fire Separation, h (1) |
|
|
|
|
|
|||||||
|
|
Adjoining Major Occupancy |
|
|
|
|
|
|
|
|
|
|||
|
|
A-1 |
A-2 |
A-3 |
A-4 |
B-1 |
B-2 |
B-3 |
C |
D |
E |
F-1 |
F-2 |
F-3 |
1. |
A-1 |
--- |
1 |
1 |
1 |
2 |
2 |
2 |
1 |
1 |
2 |
(2) |
2 |
1 |
2. |
A-2 |
1 |
--- |
1 |
1 |
2 |
2 |
2 |
1 |
1 |
2 |
(2) |
2 |
1 |
3. |
A-3 |
1 |
1 |
--- |
1 |
2 |
2 |
2 |
1 |
1 |
2 |
(2) |
2 |
1 |
4. |
A-4 |
1 |
1 |
1 |
--- |
2 |
2 |
2 |
1 |
1 |
2 |
(2) |
2 |
1 |
5. |
B-1 |
2 |
2 |
2 |
2 |
--- |
2 |
2 |
2 |
2 |
2 |
(2) |
2 |
2 |
6. |
B-2 |
2 |
2 |
2 |
2 |
2 |
--- |
1 |
2 |
2 |
2 |
(2) |
2 |
2 |
7. |
B-3 |
2 |
2 |
2 |
2 |
2 |
1 |
--- |
2 |
2 |
2 |
(2) |
2 |
2 |
8. |
C |
1 |
1 |
1 |
1 |
2 |
2 |
2 |
--- |
1 |
2(3) |
(2) |
2(4) |
1 |
9. |
D |
1 |
1 |
1 |
1 |
2 |
2 |
2 |
1 |
--- |
--- |
3 |
--- |
--- |
10. |
E |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
2(3) |
--- |
--- |
3 |
--- |
--- |
11. |
F-1 |
(2) |
(2) |
(2) |
(2) |
(2) |
(2) |
(2) |
(2) |
3 |
3 |
--- |
2 |
2 |
12. |
F-2 |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
2(4) |
--- |
--- |
2 |
--- |
--- |
13. |
F-3 |
1 |
1 |
1 |
1 |
2 |
2 |
2 |
1 |
--- |
--- |
2 |
--- |
--- |
Notes to Table 3.1.3.1.:
(1) Section 3.3. contains requirements for the separation of occupancies and tenancies that are in addition to the requirements for the separation of major occupancies.
(2) See Sentence 3.1.3.2.(1).
(3) See Sentence 3.1.3.1.(2).
(4) See Sentence 3.1.3.2.(2).
Note: On January 1, 2015, Table 3.1.3.1. is revoked and the following substituted: (See: O. Reg. 191/14, ss. 8 (2), 168 (2))
Table 3.1.3.1.
Major Occupancy Fire Separations(1)
Forming Part of Sentence 3.1.3.1.(1)
Item |
Column 1 |
Col. 2 |
Col. 3 |
Col. 4 |
Col. 5 |
Col. 6 |
Col. 7 |
Col. 8 |
Col. 9 |
Col. 10 |
Col. 11 |
Col. 12 |
Col. 13 |
Col. 14 |
|
Major Occupancy |
Minimum Fire-Resistance Rating of Fire Separation, h (1) |
|
|
|
|
|
|||||||
Adjoining Major Occupancy |
|
|
|
|
|
|
|
|
|
|||||
A-1 |
A-2 |
A-3 |
A-4 |
B-1 |
B-2 |
B-3 |
C |
D |
E |
F-1 |
F-2 |
F-3 |
||
1. |
A-1 |
N/A |
1 |
1 |
1 |
2 |
2 |
2 |
1 |
1 |
2 |
N/A |
2 |
1 |
2. |
A-2 |
1 |
N/A |
1 |
1 |
2 |
2 |
2 |
1(2) |
1(3) |
2 |
N/A |
2 |
1 |
3. |
A-3 |
1 |
1 |
N/A |
1 |
2 |
2 |
2 |
1 |
1 |
2 |
N/A |
2 |
1 |
4. |
A-4 |
1 |
1 |
1 |
N/A |
2 |
2 |
2 |
1 |
1 |
2 |
N/A |
2 |
1 |
5. |
B-1 |
2 |
2 |
2 |
2 |
N/A |
2 |
2 |
2 |
2 |
2 |
N/A |
2 |
2 |
6. |
B-2 |
2 |
2 |
2 |
2 |
2 |
N/A |
1 |
2 |
2 |
2 |
N/A |
2 |
2 |
7. |
B-3 |
2 |
2 |
2 |
2 |
2 |
1 |
N/A |
2 |
2 |
2 |
N/A |
2 |
2 |
8. |
C |
1 |
1(2) |
1 |
1 |
2 |
2 |
2 |
N/A |
1 |
2(4) |
N/A |
2 |
1 |
9. |
D |
1 |
1(3) |
1 |
1 |
2 |
2 |
2 |
1 |
N/A |
N/A |
3 |
N/A |
N/A |
10. |
E |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
2(4) |
N/A |
N/A |
3 |
N/A |
N/A |
11. |
F-1 |
N/A |
N/A |
N/A |
N/A |
N/A |
N/A |
N/A |
N/A |
3 |
3 |
N/A |
2 |
2 |
12. |
F-2 |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
N/A |
N/A |
2 |
N/A |
N/A |
13. |
F-3 |
1 |
1 |
1 |
1 |
2 |
2 |
2 |
1 |
N/A |
N/A |
2 |
N/A |
N/A |
Notes to Table 3.1.3.1.:
(1) Section 3.3. contains requirements for the separation of occupancies and tenancies that are in addition to the requirements for the separation of major occupancies.
(2) See Sentence 3.1.3.1.(3).
(3) See Sentence 3.1.3.1.(4).
(4) See Sentence 3.1.3.1.(2).
(2) In a building not more than 3 storeys in building height, if not more than two dwelling units are contained together with a Group E major occupancy, the fire-resistance rating of the fire separation between the two major occupancies need not be more than 1 h.
(3) The fire separations required between major occupancies in Sentence (1) are permitted to be penetrated by floor openings protected in conformance with Subsection 3.2.8., except for fire separations for Group F, Division 1 major occupancies and for mezzanines described in Sentence 3.2.8.2.(1).
Note: On January 1, 2015, Sentence (3) is revoked and the following substituted: (See: O. Reg. 191/14, ss. 8 (3), 168 (2))
(3) In a building within the scope of Article 3.2.2.43A., a fire separation with a 2 h fire-resistance rating is required between the Group C and Group A, Division 2 major occupancies.
(4) In a building within the scope of Article 3.2.2.50A., a fire separation with a 2 h fire-resistance rating is required between the Group D and Group A, Division 2 major occupancies.
(5) The fire separations required between major occupancies in Sentence (1) are permitted to be penetrated by floor openings protected in conformance with Subsection 3.2.8., except for fire separations for Group F, Division 1 major occupancies and for mezzanines described in Sentence 3.2.8.2.(1).
3.1.3.2. Prohibition of Occupancy Combinations
(1) No major occupancy of Group F, Division 1 shall be contained within a building with any occupancy classified as Group A, B or C.
(2) Except as provided in Sentence (4) and Sentence 3.10.2.4.(9), not more than one suite of residential occupancy shall be contained within a building classified as a Group F, Division 2 major occupancy.
(3) A sleeping room or sleeping area shall not open directly into a room or area where food is intended to be stored, prepared, processed, distributed, served, sold or offered for sale.
(4) A Group F, Division 2 major occupancy is permitted in a building containing only live/work units if the occupancy is for the exclusive use of the occupants of the live/work units.
Note: On January 1, 2015, Article 3.1.3.2. is amended by adding the following Sentences: (See: O. Reg. 191/14, ss. 9, 168 (2))
(5) A building within the scope of Article 3.2.2.43A. or 3.2.2.50A. shall not contain,
(a) a Group A, Division 1 or 3, Group B, or Group F, Division 1 or 2 major occupancy,
(b) a Group A, Division 2 or a Group E major occupancy above the second storey, or
(c) except as permitted by Sentence (6), a Group F, Division 3 major occupancy.
(6) A storage garage below the third storey is permitted in a building within the scope of Article 3.2.2.43A. or 3.2.2.50A.
3.1.4. Combustible Construction
3.1.4.1. Combustible Materials Permitted
(1) A building permitted to be of combustible construction is permitted to be constructed of combustible materials, with or without noncombustible components.
Note: On January 1, 2015, Sentence (1) is amended by adding “Except as required by this Part” at the beginning. (See: O. Reg. 191/14, ss. 10, 168 (2))
3.1.4.2. Protection of Foamed Plastics
(1) Foamed plastics that form part of a wall or ceiling assembly in combustible construction shall be protected from adjacent spaces in the building, other than adjacent concealed spaces within attic or roof spaces, crawl spaces, and wall assemblies,
(a) by one of the interior finishes described in Subsections 9.29.4. to 9.29.9.,
(b) by any thermal barrier that meets the requirements of Sentence 3.1.5.12.(2), or
(c) where the building does not contain a Group B or Group C major occupancy, by sheet metal,
(i) mechanically fastened to the supporting assembly independent of the insulation,
(ii) not less than 0.38 mm thick, and
(iii) with a melting point not below 650°C.
(2) The flame-spread rating on any exposed surface of combustible insulation, or any surface that would be exposed by cutting through it in any direction, shall be not more than 500.
3.1.4.3. Wires and Cables
(1) Except as permitted by Sentences (2) and (3), optical fibre cables and electrical wires and cables with combustible insulation, jackets or sheathes installed in a building permitted to be of combustible construction shall,
(a) not convey flame or continue to burn for more than 1 min when tested in conformance with the Vertical Flame Test in Clause 4.11.1. of CSA C22.2 No. 0.3, “Test Methods for Electrical Wires and Cables” (FT1 Rating), or
(b) be located in,
(i) totally enclosed noncombustible raceways,
(ii) concealed spaces in walls,
(iii) concrete slabs, or
(iv) totally enclosed nonmetallic raceways conforming to Clause 3.1.5.20(1)(b).
(2) The requirement in Clause (1)(a) is considered to be met where the wires and cables,
(a) exhibit a vertical char of not more than 1.5 m when tested in conformance with the Vertical Flame Test – Cables in Cabletrough in Clause 4.11.4. of CSA C22.2 No. 0.3, “Test Methods for Electrical Wires and Cables” (FT4 Rating), or
(b) exhibit a flame-spread of not more than 1.5 m, a smoke density of not more than 0.5 at peak optical density and a smoke density not more than 0.15 at average optical density when tested in conformance with the Flame and Smoke Test in the Appendix to CSA C22.2 No. 0.3, “Test Methods for Electrical Wires and Cables” (FT6 Rating).
(3) Service-entrance cables for communication and community antennae distribution systems need not conform to Sentence (1) provided,
(a) the service-entrance cables are located in a building permitted to be of combustible construction and are not more than 3 m in length from the point of entry into the building or from the point of leaving protection as required in Clause (1)(b), or
(b) the service-entrance cables enter into an electrical or telephone service room separated from the remainder of the building by a fire separation having a fire-resistance rating not less than 1 h.
3.1.4.4. Nonmetallic Raceways
(1) Totally enclosed nonmetallic raceways used in a plenum in a building permitted to be of combustible construction shall meet the requirements of Clause 3.1.5.20.(1)(a).
3.1.4.5. Fire-Retardant Treated Wood
(1) If fire-retardant treated wood is specified in this Part, the wood shall,
(a) be pressure impregnated with fire-retardant chemicals in conformance with CAN/CSA-O80 Series-M, “Wood Preservation”, and
(b) have a flame-spread rating not more than 25.
3.1.4.6. Heavy Timber Construction Alternative
(1) If combustible construction is permitted and is not required to have a fire-resistance rating more than 45 min, heavy timber construction is permitted to be used.
(2) If heavy timber construction is permitted, it shall conform to Article 3.1.4.7.
3.1.4.7. Heavy Timber Construction
(1) Wood elements in heavy timber construction shall be arranged in heavy solid masses and with essentially smooth flat surfaces to avoid thin sections and sharp projections.
(2) Except as permitted by Sentences (3) to (6) and (12), the minimum dimensions of wood elements in heavy timber construction shall conform to Table 3.1.4.7.
Table 3.1.4.7.
Heavy Timber Dimensions
Forming Part of Sentence 3.1.4.7.(2)
Item |
Column 1 Supported Assembly |
Column 2 Structural Element |
Column 3 Solid Sawn (width × depth), mm × mm |
Column 4 Glued-Laminated (width × depth), mm × mm |
Column 5 Round (diam), mm |
1. |
Roofs only |
Columns |
140 × 191 |
130 × 190 |
180 |
|
|
Arches supported on the tops of walls or abutments |
89 × 140 |
80 × 152 |
--- |
|
|
Beams, girders and trusses |
89 × 140 |
80 × 152 |
--- |
|
|
Arches supported at or near the floor line |
140 × 140 |
130 × 152 |
--- |
2. |
Floors, floors plus roofs |
Columns |
191 × 191 |
175 × 190 |
200 |
|
|
Beams, girders, trusses and arches |
140 × 241 or 191 × 191 |
130 × 228 or 175 × 190 |
--- |
(3) Where splice plates are used at splices of roof arches supported on the tops of walls or abutments, roof trusses, roof beams and roof girders in heavy timber construction, they shall be not less than 64 mm thick.
(4) Floors in heavy timber construction shall be of glued-laminated or solid sawn plank not less than,
(a) 64 mm thick, splined or tongued and grooved, or
(b) 38 mm wide and 89 mm deep set on edge and well-spiked together.
(5) Floors in heavy timber construction shall be laid,
(a) so that no continuous line of end joints will occur except at points of support, and covered with,
(i) tongued and grooved flooring not less than 19 mm thick laid cross-wise or diagonally, or
(ii) tongued and grooved phenolic-bonded plywood, strandboard or waferboard not less than 12.5 mm thick, and
(b) not closer than 15 mm to the walls to provide for expansion, with the gap covered at the top or bottom.
(6) Roofs in heavy timber construction shall be of tongued and grooved phenolic-bonded plywood not less than 28 mm thick, or glued-laminated or solid sawn plank that is,
(a) not less than 38 mm thick, splined or tongued and grooved, or
(b) not less than 38 mm wide and 64 mm deep set on edge and laid so that no continuous line of end joints will occur except at the points of support.
(7) Wood columns in heavy timber construction shall be continuous or superimposed throughout all storeys.
(8) Superimposed wood columns in heavy timber construction shall be connected by,
(a) reinforced concrete or metal caps with brackets,
(b) steel or iron caps with pintles and base plates, or
(c) timber splice plates fastened to the columns by metal connectors housed within the contact faces.
(9) Where beams and girders in heavy timber construction enter masonry, wall plates, boxes of the self-releasing type or hangers shall be used.
(10) Wood girders and beams in heavy timber construction shall be closely fitted to columns, and adjoining ends shall be connected by ties or caps to transfer horizontal loads across the joints.
(11) In heavy timber construction, intermediate wood beams used to support a floor shall be supported on top of the girders or on metal hangers into which the ends of the beams are closely fitted.
(12) Roof arches supported on the tops of walls or abutments, roof trusses, roof beams and roof girders in heavy timber construction are permitted to be not less than 64 mm wide provided,
(a) where two or more spaced members are used, the intervening spaces are,
(i) blocked solidly throughout, or
(ii) tightly closed by a continuous wood cover plate not less than 38 mm thick secured to the underside of the members, or
(b) the space below the roof deck or sheathing is sprinklered.
Note: On January 1, 2015, Subsection 3.1.4. is amended by adding the following Articles: (See: O. Reg. 191/14, ss. 11, 168 (2))
3.1.4.8. Cladding
(1) Except as permitted by Sentence 3.2.3.7.(6), cladding for a building within the scope of Article 3.2.2.43A. or 3.2.2.50A. that exceeds 4 storeys in building height or cladding for a fire compartment in such a building shall be noncombustible.
3.1.4.9. Combustible Piping
(1) Except as provided by Sentence (2), combustible piping and tubing and associated adhesives used in a building within the scope of Article 3.2.2.43A. or 3.2.2.50A. shall have a flame-spread rating not more than 25.
(2) Sentence (1) does not apply to,
(a) combustible sprinkler piping and associated adhesives,
(b) combustible tubing for pneumatic controls and associated adhesives, provided the tubing has an outside diameter not more than 10 mm,
(c) combustible piping and tubing and associated adhesives used in public pools and public spas, and
(d) combustible piping and tubing and associated adhesives concealed in a concrete floor slab.
3.1.5. Noncombustible Construction
3.1.5.1. Noncombustible Materials
(1) Except as permitted by Sentences (2) to (4) and Articles 3.1.5.2. to 3.1.5.25., 3.1.13.4. and 3.2.2.16., a building or part of a building required to be of noncombustible construction, shall be constructed with noncombustible materials.
(2) Notwithstanding the definition for noncombustible materials stated in Article 1.4.1.2. of Division A, a material is permitted to be used in noncombustible construction provided that, when tested in accordance with CAN/ULC-S135, “Test Method for the Determination of Combustibility Parameters of Building Materials Using an Oxygen Consumption Calorimeter (Cone Calorimeter)”, at a heat flux of 50 kW/m2,
(a) its average total heat release is not more than 3 MJ/m2,
(b) its average total smoke extinction area is not more than 1.0 m2, and
(c) the test duration is extended beyond the time stipulated in the referenced standard until it is clear that there is no further release of heat or smoke.
(3) If a material referred to in Sentence (2) consists of a number of discrete layers and testing reveals that the surface layer or layers protect the underlying layers such that the complete combustion of the underlying layers does not occur, the test shall be repeated by removing the outer layers sequentially until all layers have been exposed during testing, or until complete combustion has occurred.
(4) The acceptance criteria for a material tested in accordance with Sentence (3) shall be based on the cumulative emissions from all layers, which must not exceed the criteria stated in Clauses (2)(a) and (b).
3.1.5.2. Minor Combustible Components
(1) The following minor combustible components are permitted in a building required to be of noncombustible construction:
(a) paint,
(b) mastics and caulking materials applied to provide flexible seals between the major components of exterior wall construction,
(c) fire stops conforming to Sentence 3.1.9.1.(1) and fire blocks conforming to Article 3.1.11.7.,
(d) tubing for pneumatic controls provided it has an outside diameter not more than 10 mm,
(e) adhesives, vapour barriers and sheathing papers,
(f) electrical outlet and junction boxes,
(g) wood blocking within wall assemblies intended for the attachment of handrails, fixtures, and similar items mounted on the surface of the wall, and
(h) similar minor components.
3.1.5.3. Combustible Roofing Materials
(1) Combustible roof covering that has an A, B or C classification determined in conformance with Subsection 3.1.15. is permitted on a building required to be of noncombustible construction.
(2) Combustible roof sheathing and roof sheathing supports installed above a concrete deck are permitted on a building required to be of noncombustible construction provided,
(a) the concrete deck is not less than 50 mm thick,
(b) the height of the roof space above the deck is not more than 1 000 mm,
(c) the roof space is divided into compartments by fire blocks in conformance with Article 3.1.11.5.,
(d) openings through the concrete deck, other than for noncombustible roof drains and plumbing piping, are protected by masonry or concrete shafts,
(i) constructed as fire separations having a fire-resistance rating not less than 1 h, and
(ii) extending from the concrete deck to not less than 150 mm above the adjacent roof sheathing,
(e) the perimeter of the roof is protected by a noncombustible parapet extending from the concrete deck to not less than 150 mm above the adjacent sheathing, and
(f) except as permitted by Clause (d), the roof space does not contain any building services.
(3) Combustible cant strips, roof curbs, nailing strips and similar components used in the installation of roofing are permitted on a building required to be of noncombustible construction.
(4) Wood nailer facings to parapets, not more than 600 mm high, are permitted on a building required to be of noncombustible construction, if the facings and any roof membranes covering the facings are protected by sheet metal.
3.1.5.4. Combustible Glazing and Skylights
(1) Combustible skylight assemblies are permitted in a building required to be of noncombustible construction if the assemblies have a flame-spread rating not more than,
(a) 150, provided the assemblies,
(i) have an individual area not more than 9 m2,
(ii) have an aggregate horizontal projected area of the openings through the ceiling not more than 25% of the area of the ceiling of the room or space in which they are located, and
(iii) are spaced not less than 2 500 mm from adjacent assemblies and 1 200 mm from required fire separations, or
(b) 75, provided the assemblies,
(i) have an individual area not more than 27 m2,
(ii) have an aggregate horizontal projected area of the openings through the ceiling not more than 33% of the area of the ceiling of the room or space in which they are located, and
(iii) are spaced not less than 1 200 mm from adjacent assemblies and from required fire separations.
(2) Combustible vertical glazing installed no higher than the second storey is permitted in a building required to be of noncombustible construction.
(3) Except as permitted by Sentence (4), the combustible vertical glazing permitted by Sentence (2) shall have a flame-spread rating not more than 75.
(4) The flame-spread rating of combustible glazing in Sentence (2) is permitted to be not more than 150 if the aggregate area of glazing is not more than 25% of the wall area of the storey in which it is located, and,
(a) the glazing is installed in a building not more than 1 storey in building height,
(b) the glazing in the first storey is separated from the glazing in the second storey in accordance with the requirements of Article 3.2.3.17. for opening protection, or
(c) sprinklers are installed in,
(i) any storey with combustible glazing, and
(ii) the storey immediately above the storey with combustible glazing.
(5) Combustible window sashes and frames are permitted in a building required to be of noncombustible construction provided,
(a) each window in an exterior wall face is an individual unit separated by noncombustible wall construction from every other opening in the wall,
(b) windows in exterior walls in contiguous storeys are separated by not less than 1 000 mm of noncombustible construction, and
(c) the aggregate area of openings in an exterior wall face of a fire compartment is not mor