Application

(1)This Part applies to all buildings covered in this Code.

(1)The functional statements described in this Part apply

• (a) to all buildings covered in this Code, and
• (b) only to the extent that they relate to compliance with this Code as required in Article 1.2.1.1.

(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.

(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.

(1)Except as permitted by Articles 3.1.2.3. to 3.1.2.7., every building or part thereof 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.

(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.

(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.

(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)In a building conforming to the requirements of Articles 3.2.8.2. to 3.2.8.8., the requirements of Sentence (1) for fire separations between major occupancies do not apply at the vertical plane around the perimeter of an opening through the horizontal fire separation.

(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.

(5)A building within the scope of Article 3.2.2.51. or 3.2.2.60. shall not contain a retirement home.

(1)A building permitted to be of combustible construction is permitted to be constructed of combustible materials, with or without noncombustible components.

(1)Except as permitted in Sentence (2), 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 and ceiling assemblies,

• (a) by one of the interior finishes described in Subsections 9.29.4. to 9.29.9.,
• (b) provided the building does not contain a Group 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, or
• (c) any thermal barrier that meets the requirements of Sentence 3.1.5.15.(2).

(2)A walk-in cooler or freezer consisting of factory-assembled wall, floor or ceiling panels containing foamed plastics is permitted to be used in a building permitted to be of combustible construction, provided the panels

• (a) are protected on both sides by sheet metal not less than 0.38 mm thick having a melting point not less than 650°C,
• (b) do not contain an air space, and
• (c) when a sample panel with an assembled joint typical of field installation is subjected to the applicable test described in Subsection 3.1.12., have a flame-spread rating not more than that permitted for the space in which they are located, the space that they bound, as applicable.

(3)The flame-spread rating of doors containing foamed plastics shall comply with Sentences 3.1.13.2.(1) to (3).

(1)Except as required by Sentence (2), 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 (FT1 rating) in CSA C22.2 No. 0.3, "Test Methods for Electrical Wires and Cables," or
• (b) be located in (i) totally enclosed noncombustible raceways, (ii) masonry walls, (iii) concrete slabs, or (iv) totally enclosed non-metallic raceways conforming to Clause 3.1.5.23.(1)(b).

(2)Except as permitted in Sentences (3) and (4), optical fibre cables and electrical wires and cables with combustible insulation, jackets or sheathes that are used for the transmission of voice, sound or data and are installed in a plenum in a building permitted to be of combustible construction shall exhibit the following characteristics when tested in conformance with CAN/ULC-S102.4, "Standard Method of Test for Fire and Smoke Characteristics of Electrical Wiring, Cables and Non-Metallic Raceways," (FT6 rating):

• (a) a horizontal flame distance of not more than 1.5 m,
• (b) an average optical smoke density of not more than 0.15, and
• (c) a peak optical smoke density of not more than 0.5.

(3)Except as permitted in Sentence (4), where totally enclosed noncombustible raceways are used in a plenum, exposed components of wiring systems with combustible insulation, jackets or sheathes, including optical fibre cables and electrical wires and cables that are used for the transmission of voice, sound or data, that are installed in the plenum or that extend not more than 9 m from the plenum, including drop down to the floor level, are permitted, provided they exhibit a vertical char of not more than 1.5 m when tested in conformance with the Vertical Flame Test – Cables in Cable Trays (FT4 rating) in CSA C22.2 No. 0.3, "Test Methods for Electrical Wires and Cables."

(4)Cables or wires within plenums that are used for the transmission of signals in fire alarm systems need not comply with the requirements of Sentence (2).

(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, "Wood preservation," and
• (b) have a flame-spread rating not more than 25.

(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.

(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.

(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 crosswise 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, strandboard or waferboard 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 underneath of the roof deck or sheathing is sprinklered.

(1)Except as provided in Sentence (2), not less than 90% of the exterior cladding on each exterior wall of buildings conforming to Article 3.2.2.51. or 3.2.2.60. shall consist of

• (a) noncombustible cladding, or
• (b) except as provided in Sentence (4), a wall assembly that satisfies the criteria of Clause 3.1.5.5.(1)(b).

(2)Where a building is considered to face 1 street in accordance with Clause 3.2.2.10.(3)(b), the exterior cladding on each exterior wall of buildings conforming to Article 3.2.2.51. or 3.2.2.60. shall consist of

• (a) noncombustible cladding, or
• (b) except as provided in Sentence (4), a wall assembly that satisfies the criteria of Clause 3.1.5.5.(1)(b).

(3)A wall assembly conforming to Clause (1)(b) or (2)(b) that includes combustible cladding made of fire-retardant-treated wood shall be tested for fire exposure after the cladding has been subjected to the accelerated weathering test specified in ASTM D2898, "Standard Practice for Accelerated Weathering of Fire-Retardant-Treated Wood for Fire Testing."

(4)An exterior wall assembly constructed in conformance with Section 6 of MMAH Supplementary Standard SB-2, "Fire Performance Ratings" is deemed to satisfy the criteria of Clause (1)(b) and (2)(b).

(1)A person may be appointed or remain appointed under the Act as an inspector whose duties include maintenance inspections of sewage systems, even if the person does not have the qualification set out in Article 3.1.4.1. in respect of these duties.

(2)An inspector who is exempt under Sentence (1) is authorized to conduct maintenance inspections of sewage systems only if the following conditions are met:

• (a) the person is supervised by an inspector or chief building official who is registered in the class of registration described in Column 1 of Item 10 of Table 3.5.2.1., and
• (b) the person does not issue orders under the Act.

(1)Except as permitted by Sentences (2) to (4) and Articles 3.1.5.2. to 3.1.5.29., 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 of 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 ULC S135, "Standard 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 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).

(1)The following minor combustible components are permitted in a building required to be of noncombustible construction:

• (a) paint,
• (b) self-adhesive tapes, mastics and caulking materials including foamed plastic air sealants, applied to provide a seal between the major components of exterior wall construction,
• (c) firestops and fire blocks conforming to Sentence 3.1.9.1.(1) 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 intended for the attachment of window elements within exterior wall assemblies,
• (h) wood blocking within wall assemblies intended for the attachment of handrails, fixtures, and similar items mounted on the surface of the wall, and
• (i) similar minor components.

(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 m,
• (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 that are not more than 610 mm high are permitted on a building required to be of noncombustible construction, provided the facings and any roof membranes covering the facings are protected by sheet metal.

(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 2.5 m 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 1.2 m 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 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) the building is sprinklered throughout.

(5)Combustible window sashes and frames are permitted in a building required to be of noncombustible construction, provided they are vertically non-contiguous between storeys.

(1)Except as provided in Sentences (2) and (3), combustible cladding is permitted to be used on an exterior wall assembly in a building required to be of noncombustible construction, provided

• (a) the building is (i) not more than 3 storeys in building height, or (ii) sprinklered throughout, and
• (b) except as provided in Sentence (4), when tested in accordance with CAN/ULC-S134, "Standard Method of Fire Test of Exterior Wall Assemblies," the wall assembly satisfies the following criteria for testing and conditions of acceptance: (i) flaming on or in the wall assembly does not spread more than 5 m above the opening, and (ii) the heat flux during the flame exposure on the wall assembly is not more than 35 kW/m2 measured at 3.5 m above the opening.

(2)Except as permitted by Articles 3.2.3.10. and 3.2.3.11., where the limiting distance in Tables 3.2.3.1.-B to 3.2.3.1.-E permits an area of unprotected openings of not more than 10% of the exposing building face, the construction requirements of Table 3.2.3.7. shall be met.

(3)A wall assembly permitted by Sentence (1) that includes combustible cladding of fire-retardant-treated wood shall be tested for fire exposure after the cladding has been subjected to an accelerated weathering test as specified in ASTM D2898, "Standard Practice for Accelerated Weathering of Fire-Retardant-Treated Wood for Fire Testing."

(4)Exterior wall assemblies constructed in accordance with Section 6 of MMAH Supplementary Standard SB-2, "Fire Performance Ratings" are deemed to comply with Clause (1)(b).

(1)Combustible components, other than those permitted by Article 3.1.5.5. and Sentence 3.1.5.7.(2), are permitted to be used in an exterior wall assembly of a building required to be of noncombustible construction, provided

• (a) the building is (i) not more than 3 storeys in building height, or (ii) sprinklered throughout, and
• (b) the wall assembly (i) except as provided in Sentence (2), satisfies the criteria of Clause 3.1.5.5.(1)(b), or (ii) is protected by masonry or concrete cladding not less than 25 mm thick.

(2)Exterior wall assemblies constructed in accordance with Section 6 of MMAH Supplementary Standard SB-2, "Fire Performance Ratings" are deemed to comply with Subclause (1)(b)(i).

(1)Except as provided in Sentence (2), factory-assembled wall and ceiling panels containing foamed plastic insulation with a flame-spread rating not more than 500 are permitted to be used in a building required to be of noncombustible construction, provided

• (a) the building (i) is sprinklered, (ii) is not more than 18 m high, measured from grade to the underside of the roof, and (iii) does not contain a Group A, Group B or Group C major occupancy, and
• (b) the panels (i) do not contain an air space, (ii) when tested in accordance with CAN/ULC-S138, "Standard Method of Test for Fire Growth of Insulated Building Panels in a Full-Scale Room Configuration," meet the criteria defined therein, and (iii) when a sample panel with an assembled joint typical of field installation is subjected to the applicable test described in Subsection 3.1.12., have a flame-spread rating not more than that permitted for the room or space that they bound.

(2)Factory-assembled exterior wall panels containing thermosetting foamed plastic insulation are permitted to be used in a building required to be of noncombustible construction, provided

• (a) the building (i) is not more than 18 m high, measured from grade to the underside of the roof, and (ii) does not contain a Group B or Group C major occupancy, and
• (b) the wall panels (i) do not contain an air space, (ii) are protected on both sides by sheet steel not less than 0.38 mm thick, (iii) remain in place for not less than 10 min when tested in accordance with CAN/ULC-S101, "Standard Method of Fire Endurance Tests of Building Construction and Materials," where the exposed surface includes typical vertical and horizontal joints, and (iv) when a sample panel with an assembled joint typical of field installation is subjected to the applicable test described in Subsection 3.1.12., have a flame-spread rating not more than that permitted for the room or space that they bound.

(3)A walk-in cooler or freezer consisting of factory-assembled wall, floor or ceiling panels containing foamed plastic insulation with a flame-spread rating not more than 500 is permitted to be used in a building required to be of noncombustible construction, provided

• (a) the building is sprinklered, and
• (b) the panels (i) are protected on both sides by sheet metal not less than 0.38 mm thick with a melting point not less than 650°C, (ii) do not contain an air space, (iii) when tested in accordance with CAN/ULC-S138, "Standard Method of Test for Fire Growth of Insulated Building Panels in a Full-Scale Room Configuration," meet the criteria defined therein, and (iv) when a sample panel with an assembled joint typical of field installation is subjected to the applicable test described in Subsection 3.1.12., have a flame-spread rating not more than that permitted for the space in which they are located or the space that they bound, as applicable.

(1)Wood nailing elements attached directly to or set into a continuous noncombustible backing for the attachment of interior finishes are permitted in a building required to be of noncombustible construction provided the concealed space created by the wood elements is not more than 50 mm thick.

(1)Combustible millwork, including interior trim, doors and door frames, show windows together with their frames, aprons and backing, handrails, shelves, cabinets and counters, is permitted in a building required to be of noncombustible construction.

(1)Combustible stage flooring supported on noncombustible structural members is permitted in a building required to be of noncombustible construction.

(2)Wood members more than 50 mm but not more than 300 mm high applied directly to or set into a noncombustible floor slab are permitted for the construction of a raised platform in a building required to be of noncombustible construction provided the concealed spaces created are divided into compartments by fire blocks in conformance with Sentence 3.1.11.3.(2).

(3)The floor system for the raised platform referred to in Sentence (2) is permitted to include combustible subfloor and combustible finished flooring.

(4)Combustible finished flooring is permitted in a building required to be of noncombustible construction.

(1)Combustible stairs are permitted in a dwelling unit in a building required to be of noncombustible construction.

(1)Except permitted in Sentences (2) and (3), combustible interior wall and ceiling finishes referred to in Clause 3.1.13.1.(2)(b) that are not more than 1 mm thick are permitted in a building required to be of noncombustible construction.

(2)Combustible interior wall finishes, other than foamed plastics, that are not more than 25 mm thick are permitted in a building required to be of noncombustible construction, provided they have a flame-spread rating not more than 150 on any exposed surface or any surface that would be exposed by cutting through the material in any direction.

(3)Except as provided in Sentence (4), combustible interior ceiling finishes, other than foamed plastics, that are not more than 25 mm thick are permitted in a building required to be of noncombustible construction, provided they have a flame-spread rating not more than 25 on any exposed surface or on any surface that would be exposed by cutting through the material in any direction, except that not more than 10% of the ceiling area within each fire compartment is permitted to have a flame-spread rating not more than 150.

(4)Combustible interior ceiling finishes made of fire-retardant-treated wood are permitted in a building required to be of noncombustible construction, provided they are not more than 25 mm thick or are exposed fire-retardant-treated wood battens.

(1)Gypsum board with a tightly adhering paper covering not more than 1 mm thick is permitted in a building required to be of noncombustible construction provided the flame-spread rating of the surface is not more than 25.

(1)Foamed plastic insulation shall conform to Article 3.1.5.15.

(2)Combustible insulation with a flame-spread rating not more than 25 on any exposed surface, or any surface that would be exposed by cutting through the material in any direction, is permitted in a building required to be of noncombustible construction.

(3)Combustible insulation is permitted to be installed above roof decks, outside of foundation walls below ground level and beneath concrete slabs-on-ground of buildings required to be of noncombustible construction.

(4)Except as provided in Sentences (5) and (6), combustible insulation with a flame-spread rating more than 25 but not more than 500 on any exposed surface, or any surface that would be exposed by cutting through the material in any direction, is permitted in a building required to be of noncombustible construction, provided the insulation is protected from adjacent space in the building, other than adjacent concealed spaces within wall assemblies, by a thermal barrier consisting of

• (a) not less than 12.7 mm thick gypsum board mechanically fastened to a supporting assembly independent of the insulation,
• (b) lath and plaster, mechanically fastened to a supporting assembly independent of the insulation,
• (c) masonry, or
• (d) concrete.

(5)Combustible insulation with a flame-spread rating more than 25 but not more than 500 on any exposed surface, or any surface that would be exposed by cutting through the material in any direction, is permitted in the exterior walls of a building required to be of noncombustible construction that is not sprinklered and is more than 18 m high, measured from grade to the underside of the roof, provided the insulation is protected from adjacent space in the building, other than adjacent concealed spaces within wall assemblies, by a thermal barrier consisting of

• (a) gypsum board not less than 12.7 mm thick, mechanically fastened to a supporting assembly independent of the insulation and with all joints either backed or taped and filled,
• (b) lath and plaster, mechanically fastened to a supporting assembly independent of the insulation,
• (c) masonry or concrete not less than 25 mm thick, or
• (d) any thermal barrier that, when tested in conformance with CAN/ULC-S101, "Standard Method of Fire Endurance Tests of Building Construction and Materials," will not develop an average temperature rise more than 140°C or a maximum temperature rise more than 180°C at any point on its unexposed face within 10 min.

(6)Combustible insulation with a flame-spread rating more than 25 but not more than 500 on any exposed surface, or any surface that would be exposed by cutting through the material in any direction, is permitted in the interior walls, within ceilings and within roof assemblies of a building required to be of noncombustible construction that is not sprinklered and is more than 18 m high, measured from grade to the underside of the roof, provided the insulation is protected from adjacent space in the building, other than adjacent concealed spaces within wall assemblies, by a thermal barrier consisting of

• (a) Type X gypsum board not less than 15.9 mm thick, mechanically fastened to a supporting assembly independent of the insulation and with all joints either backed or taped and filled, conforming to (i) ASTM C1177 / C1177M, "Standard Specification for Glass Mat Gypsum Substrate for Use as Sheathing," (ii) ASTM C1178 / C1178M, "Standard Specification for Coated Glass Mat Water-Resistant Gypsum Backing Panel," (iii) ASTM C1396 / C1396M, "Standard Specification for Gypsum Board," (iv) ASTM C1658 / C1658M, "Standard Specification for Glass Mat Gypsum Panels," or (v) CAN/CSA-A82.27-M, "Gypsum Board,"
• (b) of non-loadbearing masonry or concrete not less than 50 mm thick,
• (c) loadbearing masonry or concrete not less than 75 mm thick, or
• (d) any thermal barrier that, when tested in conformance with CAN/ULC-S101, "Standard Method of Fire Endurance Tests of Building Construction and Materials," (i) does not develop an average temperature rise more than 140°C or a maximum temperature rise more than 180°C at any point on its unexposed face within 20 min, and (ii) remains in place for not less than 40 min.

(1)Foamed plastic insulation is permitted to be installed above roof decks, outside of foundation walls below ground level and beneath concrete slabs-on-ground of a building required to be of noncombustible construction.

(2)Except as provided in Sentences (3), (4) and 3.1.5.7.(1), foamed plastic insulation with a flame-spread rating not more than 500 on any exposed surface, or any surface that would be exposed by cutting through the material in any direction, is permitted in a building required to be of noncombustible construction, provided the insulation is protected from adjacent space in the building, other than adjacent concealed spaces within wall assemblies, by a thermal barrier consisting of

• (a) not less than 12.7 mm thick gypsum board mechanically fastened to a supporting assembly independent of the insulation,
• (b) lath and plaster, mechanically fastened to a supporting assembly independent of the insulation,
• (c) masonry,
• (d) concrete, or
• (e) any thermal barrier that meets the requirements of classification B when tested in conformance with CAN/ULC-S124, "Standard Method of Test for the Evaluation of Protective Coverings for Foamed Plastic".

(3)Foamed plastic insulation with a flame-spread rating more than 25 but not more than 500 on any exposed surface, or any surface that would be exposed by cutting through the material in any direction, is permitted in the exterior walls of a building required to be of noncombustible construction that is not sprinklered and is more than 18 m high, measured from grade to the underside of the roof, provided the insulation is protected from adjacent space in the building, other than adjacent concealed spaces within wall assemblies, by a thermal barrier consisting of

• (a) gypsum board not less than 12.7 mm thick, mechanically fastened to a supporting assembly independent of the insulation and with all joints either backed or taped and filled,
• (b) lath and plaster, mechanically fastened to a supporting assembly independent of the insulation,
• (c) masonry or concrete not less than 25 mm thick, or
• (d) any thermal barrier that, when tested in conformance with CAN/ULC-S101, "Standard Method of Fire Endurance Tests of Building Construction and Materials," does not develop an average temperature rise more than 140°C or a maximum temperature rise more than 180°C at any point on its unexposed face within 10 min.

(4)Foamed plastic insulation with a flame-spread rating more than 25 but not more than 500 on any exposed surface, or any surface that would be exposed by cutting through the material in any direction, is permitted in the interior walls, within ceilings and within roof assemblies of a building required to be of noncombustible construction that is not sprinklered and is more than 18 m high, measured from grade to the underside of the roof, provided the insulation is protected from adjacent space in the building, other than adjacent concealed spaces within wall assemblies, by a thermal barrier consisting of

• (a) Type X gypsum board not less than 15.9 mm thick, mechanically fastened to a supporting assembly independent of the insulation and with all joints either backed or taped and filled, conforming to (i) ASTM C1177 / C1177M, "Standard Specification for Glass Mat Gypsum Substrate for Use as Sheathing," (ii) ASTM C1178 / C1178M, "Standard Specification for Coated Glass Mat Water-Resistant Gypsum Backing Panel," (iii) ASTM C1396 / C1396M, "Standard Specification for Gypsum Board," or (iv) CAN/CSA-A82.27-M, "Gypsum Board,"
• (b) non-loadbearing masonry or concrete not less than 50 mm thick,
• (c) loadbearing masonry or concrete not less than 75 mm thick, or
• (d) any thermal barrier that, when tested in conformance with CAN/ULC-S101, "Standard Method of Fire Endurance Tests of Building Construction and Materials," (i) does not develop an average temperature rise more than 140°C or a maximum temperature rise more than 180°C at any point on its unexposed face within 20 min, and (ii) remains in place for not less than 40 min.

(1)Except as permitted by Sentence (2), solid lumber partitions not less than 38 mm thick and wood framing in partitions located in a fire compartment not more than 600 m2 in area are permitted to be used in a building required to be of noncombustible construction in a floor area that is not sprinklered provided the partitions

• (a) are not required fire separations, and
• (b) are not located in a care, care and treatment or detention occupancy or in a retirement home.

(2)Partitions installed in a building of noncombustible construction are permitted to contain wood framing provided

• (a) the building is not more than 3 storeys in building height,
• (b) the partitions are not located in a care, care and treatment or detention occupancy or in a retirement home, and
• (c) the partitions are not installed as enclosures for exits or vertical service spaces.

(3)Solid lumber partitions not less than 38 mm thick and partitions that contain wood framing are permitted to be used in a building required to be of noncombustible construction provided

• (a) the floor area containing the partitions is sprinklered throughout, and
• (b) the partitions are not (i) located in a care, care and treatment or detention occupancy or in a retirement home, (ii) installed as enclosures for exits or vertical service spaces, or (iii) used to satisfy the requirements of Clause 3.2.8.1.(1)(a).

(1)Except in a retirement home, storage lockers in storage rooms are permitted to be constructed of wood in a building of residential occupancy required to be of noncombustible construction.

(1)Except as required by Sentence 3.6.4.3.(1), combustible ducts, including plenums and duct connectors, are permitted to be used in a building required to be of noncombustible construction provided these ducts and duct connectors are used only in horizontal runs.

(2)Combustible duct linings, duct coverings, duct insulation, vibration isolation connectors, duct tape, pipe insulation and pipe coverings are permitted to be used in a building required to be of noncombustible construction provided they conform to the appropriate requirements of Subsection 3.6.5.

(3)In a building required to be of noncombustible construction, combustible ducts need not comply with the requirements of Sentences 3.6.5.1.(1) and (2) provided the ducts are

• (a) part of a duct system conveying only ventilation air, and
• (b) contained entirely within a dwelling unit.

(1)Except as permitted by Clause 3.1.5.2.(1)(d) and Article 3.1.5.25. and Sentences (2) and (3), combustible piping and tubing and associated adhesives are permitted to be used in a building required to be of noncombustible construction provided that, except when concealed in a wall or concrete floor slab, they

• (a) have a flame-spread rating not more than 25, and
• (b) if used in a building described in Subsection 3.2.6., have a smoke developed classification not more than 50.

(2)Combustible sprinkler piping is permitted to be used within a sprinklered floor area in a building required to be of noncombustible construction.

(3)Polypropylene pipes and fittings are permitted to be used for drain, waste and vent piping for the conveyance of highly corrosive materials and for piping used to distribute distilled or dialyzed water in laboratory and hospital facilities in a building required to be of noncombustible construction, provided

• (a) the building is sprinklered throughout,
• (b) the piping is not located in a vertical shaft, and
• (c) piping that penetrates a fire separation is sealed at the penetration by a firestop that has an FT rating not less than the fire-resistance rating of the fire separation when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems," with a pressure differential of 50 Pa between the exposed and unexposed sides, with the higher pressure on the exposed side.

(1)Combustible plumbing fixtures including wall and ceiling enclosures that form part of the plumbing fixture, are permitted in a building required to be of noncombustible construction provided they are constructed of material having a flame-spread rating and smoke developed classification not more than that permitted for the wall surface of the room or space in which they are installed.

(1)Except as permitted by Sentence (2) and Articles 3.1.5.22. and 3.1.5.25., optical fibre cables and electrical wires and cables with combustible insulation, jackets or sheathes are permitted in a building required to be of noncombustible construction, provided

• (a) the wires and cables exhibit a vertical char of not more than 1.5 m when tested in conformance with the Vertical Flame Test – Cables in Cable Trays (FT4 rating) in CSA C22.2 No. 0.3, "Test methods for electrical wires and cables,"
• (b) the wires and cables are located in (i) totally enclosed noncombustible raceways, (ii) masonry walls, (iii) concrete slabs, (iv) a service room separated from the remainder of the building by a fire separation having a fire-resistance rating not less than 1 h, or (v) totally enclosed non-metallic raceways conforming to Clause 3.1.5.23.(1)(b), or
• (c) the wires and cables are communication cables used at the service entry to a building and are not more than 3 m long.

(2)Except as permitted in Sentences (3) and (4), optical fibre cables and electrical wires and cables with combustible insulation, jackets or sheathes that are used for the transmission of voice, sound or data and are not located in totally enclosed noncombustible raceways are permitted to be installed in a plenum in a building required to be of noncombustible construction, provided the wires and cables exhibit a horizontal flame distance of not more than 1.5 m, an average optical smoke density of not more than 0.15, and a peak optical smoke density of not more than 0.5 when tested in conformance with CAN/ULC-S102.4, "Standard Method of Test for Fire and Smoke Characteristics of Electrical Wiring, Cables and Non-Metallic Raceways," (FT6 rating).

(3)Except as permitted in Sentence (4), where totally enclosed noncombustible raceways are used in a plenum, exposed components of wiring systems with combustible insulation, jackets or sheathes, including optical fibre cables and electrical wires and cables that are used for the transmission of voice, sound or data, that are installed in the plenum or that extend not more than 9 m from the plenum including drop down to the floor level, are permitted provided they exhibit a vertical char of not more than 1.5 m when tested in conformance with the Vertical Flame Test – Cables in Cable Trays (FT4 rating) in CSA C22.2 No. 0.3, "Test methods for electrical wires and cables."

(4)Cables or wires within plenums that are used for the transmission of signals in fire alarm systems need not comply with the requirements of Sentences (2) and (3).

(1)Combustible travelling cables are permitted on elevating devices in a building required to be of noncombustible construction.

(1)Except as required in Sentence (2), subject to the limits on the size of elements that penetrate fire separations when complying with Article 3.1.9.2., within a fire compartment of a building required to be of noncombustible construction, totally enclosed non-metallic raceways not more than 175 mm in outside diameter, or of an equivalent rectangular area, are permitted to be used to enclose optical fibre cables and electrical wires and cables, provided

• (a) where the wires and cables in the raceways meet or exceed the requirements of Clause 3.1.5.21.(1)(a), the non-metallic raceways meet the requirements for at least an FT4 rating in, (i) CAN/CSA-C22.2 No. 262, "Optical Fiber Cable and Communication Cable Raceway Systems," or (ii) CAN/ULC-S143, "Standard Method of Fire Tests for Non-Metallic Electrical and Optical Fibre Cable Raceway Systems," and
• (b) where the wires and cables in the raceways do not meet or exceed the requirements of Clause 3.1.5.21.(1)(a), the non-metallic raceways exhibit a vertical char of not more than 1.5 m when tested in conformance with the Vertical Flame Test (FT4) – Conduit or Tubing on Cable Tray in Clause 6.16 of CSA C22.2 No. 211.0, "General Requirements and Methods of Testing for Nonmetallic Conduit."

(2)Totally enclosed non-metallic raceways used in a plenum in a building required to be of noncombustible construction shall exhibit a horizontal flame distance of not more than 1.5 m, an average optical smoke density of not more than 0.15, and a peak optical smoke density of not more than 0.5 when tested in conformance with CAN/ULC-S102.4, "Standard Method of Test for Fire and Smoke Characteristics of Electrical Wiring, Cables and Non-Metallic Raceways," (FT6 rating).

(1)On buildings required to be of noncombustible construction, decorative wood cladding is permitted to be used on the exterior fascias and soffits of marquees or canopies on the building face of a storey having direct access to a street or access route, provided the wood cladding is fire-retardant-treated wood that has been conditioned in conformance with ASTM D2898, "Standard Practice for Accelerated Weathering of Fire-Retardant-Treated Wood for Fire Testing," before being tested in accordance with CAN/ULC-S102, "Standard Method of Test for Surface Burning Characteristics of Building Materials and Assemblies."

(1)Optical fibre cables and electrical wires and cables with combustible insulation, jackets or sheathes, located in the space below a raised floor in a computer room, are permitted in a building required to be of noncombustible construction provided they do 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).

(2)The requirement in Sentence (1) 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).

(1)Combustible fittings and components in a public pool or public spa, including main drains, piping, skimmers, return inlets, steps, ladder rungs and liners, are permitted in a building required to be of noncombustible construction.

(1)In a building required to be of noncombustible construction, a mezzanine located within a live/work unit is permitted to be of combustible construction, provided the area of the mezzanine is not more than 25% of the floor area of the live/work unit or 20 m2, whichever is less, and has no obstructions more than 1 070 mm above the floor.

(1)A combustible solar collector system is permitted to be installed above the roof of a building required to be of noncombustible construction.

(1)Except as permitted in Sentence (2), exterior marquees, not greater than 7.5 m from ground level to the top of the marquee, having combustible elements, other than fabrics or films conforming to Sentence 3.1.16.1.(1), are permitted on a building required to be of noncombustible construction, provided every opening in the exposed wall of the building above the marquee is protected with wired glass in accordance with MMAH Supplementary Standard SB-2, "Fire Performance Ratings" where these openings are within,

• (a) 4.5 m horizontally of the marquee, and
• (b) 9 m vertically above the marquee.

(2)The protection required by Sentence (1) is permitted to be waived if the building is sprinklered.

(1)Encapsulated mass timber construction permitted in this Part shall conform to this Subsection.

(1)Except as otherwise provided in this Part and Sentence 6.4.3.1.(1), materials used in a building or part of a building permitted to be of encapsulated mass timber construction shall conform to Subsection 3.1.5.

(1)Except as otherwise provided in this Subsection and Articles 3.2.2.16. and 3.2.3.19., a building or part of a building permitted to be of encapsulated mass timber construction is permitted to include structural mass timber elements, including beams, columns, arches and wall, floor and roof assemblies, provided they comply with Sentences (2) and (3).

(2)Structural mass timber elements referred to in Sentence (1) shall

• (a) except as provided in Sentence (4), be arranged in heavy solid masses containing no concealed spaces,
• (b) have essentially smooth flat surfaces with no thin sections or sharp projections, and
• (c) except as provided in Sentence 3.1.6.17.(1), conform to the minimum dimensions stated in Table 3.1.6.3.

(3)Adhesives used in structural mass timber elements referred to in Sentence (1) that are constructed of cross-laminated timber shall conform to the elevated temperature performance requirements in ANSI/APA PRG 320, "Standard for Performance-Rated Cross-Laminated Timber."

(4)Concealed spaces are permitted within structural mass timber elements referred to in Sentence (2) and need not conform to Sentence 3.1.6.4.(1) provided the concealed spaces are,

• (a) sprinklered and divided into compartments by fire blocks in conformance with Subsection 3.1.11.,
• (b) completely filled with rock or slag fibre insulation conforming to CAN/ULC-S702.1 "Standard for Mineral Fibre Thermal Insulation for Buildings, Part 1: Material Specification," and having a density not less than 32 kg/m3,
• (c) if horizontal, lined with not less than a single layer of 12.7 mm thick Type X gypsum board or noncombustible material providing an encapsulation rating of not less than 25 min, or
• (d) if vertical, lined with not less than a single layer of 12.7 mm thick Type X gypsum board or noncombustible material providing an encapsulation rating of not less than 25 min and vertically divided into compartments by fire blocks in conformance with Subsection 3.1.11.

(1)Except as provided in Sentences (3) to (9), 3.1.6.3.(4), 3.1.6.16.(2) and 3.1.6.17.(2), and Articles 3.1.6.7. and 3.1.6.12., the exposed surfaces of structural mass timber elements conforming to Article 3.1.6.3. shall be protected from adjacent spaces in the building, including adjacent concealed spaces within wall, floor and roof assemblies, by a material or assembly of materials conforming to Sentence (2) that provides an encapsulation rating that

• (a) is not less than 50 min in a building or part thereof constructed in conformance with Article 3.2.2.48. or 3.2.2.57., or
• (b) conforms to the minimum values stated in Table 3.2.2.93. for the applicable major occupancy and building height.

(2)Except as provided in Sentence 3.1.6.11.(1), the material or assembly of materials referred to Sentence (1) shall consist of

• (a) gypsum board,
• (b) gypsum concrete,
• (c) noncombustible materials,
• (d) materials that conform to Sentences 3.1.5.1.(2) to (4), or
• (e) any combination of materials listed in Clauses (a) to (d).

(3)Except as provided in Sentences (5) and (7), the exposed surfaces of mass timber beams, columns and arches within a suite or fire compartment in a building or part thereof constructed in conformance with Article 3.2.2.48. or 3.2.2.57. or permitted by Article 3.2.2.93. to have a 50 min encapsulation rating need not be protected in accordance with Sentence (1), provided

• (a) their aggregate exposed surface area does not exceed 35% of the total wall area of the perimeter of the suite or fire compartment in which they are located, and
• (b) the flame-spread rating on any exposed surface is not more than 150.

(4)Except as provided in Sentences (5) to (7), the exposed surfaces of mass timber walls within a suite in a building or part threreof constructed in conformance with Article 3.2.2.48. or 3.2.2.57. or permitted by Article 3.2.2.93. to have a 50 min encapsulation rating need not be protected in accordance with Sentence (1), provided

• (a) all portions of the exposed surfaces,
• (i) face the same direction, or (ii) are separated by a horizonal distance of not less than 4.5 m, and
• (b) the flame-spread rating on any exposed surface is not more than 150.

(5)Except as provided in Sentence (7), the aggregate exposed surface area of mass timber elements within a suite permitted in Sentences (3) and (4) shall not exceed 35% of the total wall area of the perimeter of the suite.

(6)Except as provided in Sentence (7), the exposed surfaces of mass timber ceilings within a suite or fire compartment, other than an exit and public corridor, in a building or part thereof constructed in conformance with Article 3.2.2.48. or 3.2.2.57. or permitted by Article 3.2.2.93. to have a 50 min encapsulation rating need not be protected in accordance with Sentence (1), provided the aggregate surface area does not exceed

• (a) 10% of the total ceiling area of the suite or fire compartment, where the flame-spread rating on any exposed surface is not more than 150, or
• (b) 25% of the total ceiling area of the suite or fire compartment, where the flame-spread rating on any exposed surface of a mass timber wall or ceiling is not more than 75.

(7)The exposed surfaces of mass timber ceilings within a suite in a building or part thereof constructed in conformance with Article 3.2.2.48. or 3.2.2.57. or permitted by Article 3.2.2.93. to have a 50 min encapsulation rating need not be protected in accordance with Sentence (1) or (6), provided

• (a) the aggregate surface area of any exposed mass timber beams, columns and arches does not exceed 20% of the total wall area of the perimeter of the suite in which they are located,
• (b) all surface of the mass timber walls are,
• (i) protected in accordance with Sentence (1), or (ii) mass timber walls that are not otherwise permitted to be exposed in accordance with Sentence (5) are protected by a material or assembly of materials conforming to Sentence (2) that provides an encapsulation rating of not less than 80 min, and
• (c) the flame spread rating on any exposed mass timber wall or ceiling is not more than 75.

(8)Structural mass timber elements in a building or part thereof permitted by Article 3.2.2.93. to have a 0 min encapsulation rating need not be protected in accordance with Sentence (1), provided

• (a) mass timber walls and ceilings within vertical service spaces, public corridors, and exits are protected on the interior side with a material or assembly of materials conforming to Sentence (2) that provides an encapsulation rating of not less than 25 min, and
• (b) concealed spaces are protected in conformance with Sentence 3.1.6.3.(4).

(9)In a building or part thereof required by Clause 3.1.6.4.(1)(b) to have a minimum encapsulation rating of 70 min, the upper side of a mass timber floor or roof assembly is permitted to be encapsulated by a material or assembly of materials conforming to Sentence 3.1.6.4.(2) that provides an encapsulation rating of 50 min.

(1)Except as permitted by Sentence (2) and Articles 3.1.7.2. and 3.6.3.5., the rating of a material, assembly of materials or a structural member that is required to have a fire-resistance rating, shall be determined on the basis of the results of tests conducted in conformance with CAN/ULC-S101, "Standard Method of Fire Endurance Tests of Building Construction and Materials."

(2)A material, assembly of materials or a structural member is permitted to be assigned a fire-resistance rating on the basis of MMAH Supplementary Standard SB-2, "Fire Performance Ratings."

(1)Any wall, partition or floor assembly required to be a fire separation shall

• (a) except as permitted by Sentence (2), be constructed as a continuous element in conformance with Article 3.1.8.3., and
• (b) as required in this Part, have a fire-resistance rating as specified.

(2)Openings in a fire separation shall be protected with closures, shafts or other means in conformance with Articles 3.1.8.4. to 3.1.8.20. and Subsections 3.1.9. and 3.2.8.

(1)Except as permitted by Sentence 3.6.4.2.(2), a horizontal service space or other concealed space located above a required vertical fire separation, including the walls of a vertical shaft, shall be divided at the fire separation by an equivalent fire separation within the service space.

(2)Except as provided in Sentence (5), the continuity of a fire separation having a fire-resistance rating that abuts another fire separation, a floor, a ceiling, or a roof shall be maintained by a firestop conforming to Sentence (3).

(1)Except as permitted by Sentences (2) and 3.1.8.16.(1), the fire-protection rating of a closure shall be determined in accordance with

• (a) CAN/ULC-S104, "Standard Method for Fire Tests of Door Assemblies,"
• (b) CAN/ULC-S106, "Standard Method for Fire Tests of Window and Glass Block Assemblies," or
• (c) CAN/ULC-S112, "Standard Method for Fire Test of Fire Damper Assemblies."

(2)Except as permitted by Sentence 3.1.8.12.(1), the fire-protection rating of a closure shall conform to Table 3.1.8.4. for the required fire-resistance rating of the fire separation.

(3)The leakage rate of smoke dampers and combination smoke/fire dampers shall

• (a) be determined in accordance with the applicable provisions in CAN/ULC-S112.1, "Standard for Leakage Rated Dampers for Use in Smoke Control Systems," and
• (b) conform to Class I, II or III of that standard.

(4)The leakage rate of a door assembly shall be determined in accordance with ANSI/UL-1784, "Standard for Air Leakage Tests of Door Assemblies and Other Opening Protectives."

(1)Except where fire dampers, window assemblies and glass block are used as closures, closures of the same fire-protection rating installed on opposite sides of the same opening are deemed to have a fire-protection rating equal to the sum of the fire-protection ratings of the closures.

(2)Except as otherwise specified in this Part, every door, fire damper, window assembly or glass block used as a closure in a required fire separation shall be installed in conformance with NFPA 80, "Standard for Fire Doors and Other Opening Protectives."

(3)Except as otherwise specified in this Part, every smoke damper or combination smoke/fire damper used as a closure in a required fire separation shall be installed in conformance with NFPA 105, "Standard for Smoke Door Assemblies and Other Opening Protectives."

(4)If a door is installed so that it could damage the integrity of a fire separation if its swing is unrestricted, door stops shall be installed to prevent the damage.

(5)Reserved.

(6)A leakage-rated door assembly complying with Sentence 3.1.8.4.(4) shall be installed in

• (a) fire separations in protected floor areas described in Clause 3.3.1.7.(1)(b),
• (b) fire separations in care or care and treatment occupancies referred to in Sentence 3.3.3.5.(4) and installed in fire separations in retirement homes referred to in Sentence 3.3.4.11.(4),
• (c) except as provided in Sentence (8), fire separations of public corridors serving dwelling units in storeys that are not sprinklered, and
• (d) firewalls that are a horizontal exit referred to in Sentence 3.3.3.5.(3).

(7)Leakage-rated door assemblies required by Sentence (6) shall be installed in accordance with NFPA 105, "Standard for Smoke Door Assemblies and Other Opening Protectives."

(8)A leakage-rated door assembly need not be installed where a dwelling unit served by a public corridor has

• (a) a second and separate means of egress, or
• (b) an open-air balcony that is sized to accommodate the number of occupants for which the dwelling unit is intended.

(1)The size of an opening in an interior fire separation required to be protected with a closure shall be not more than 11 m2, with no dimension more than 3.7 m, if a fire compartment on either side of the fire separation is not sprinklered.

(2)The size of an opening in an interior fire separation required to be protected with a closure shall be not more than 22 m2, with no dimension more than 6 m, provided the fire compartments on both sides of the fire separation are sprinklered.

(1)Except as provided in Article 3.1.8.8., a fire damper having a fire-protection rating conforming to Sentence 3.1.8.4.(2) shall be installed in conformance with Article 3.1.8.10. in ducts or air-transfer openings that penetrate an assembly required to be a fire separation.

(2)Except as provided in Article 3.1.8.9., a smoke damper or a combination smoke/fire damper shall be installed in conformance with Article 3.1.8.11. in ducts or air-transfer openings that penetrate an assembly required to be a fire separation, where the fire separation

• (a) separates a public corridor,
• (b) contains an egress door referred to in Sentence 3.4.2.4.(2),
• (c) serves an assembly, care, care and treatment, detention or residential occupancy, or
• (d) is installed to meet the requirements of Clause 3.3.1.7.(1)(b) or Sentence 3.3.3.5.(4). or 3.3.4.11.(4).

(1)Except as provided in Sentences (2) to (4), the requirement for fire dampers stated in Sentence 3.1.8.7.(1) is permitted to be waived for

• (a) ducts that serve commercial cooking equipment,
• (b) continuous noncombustible ducts having a melting point above 760°C that penetrate a vertical fire separation required by Sentence 3.3.1.1.(1) between suites of assembly, mercantile, low-hazard industrial, medium-hazard industrial or high-hazard industrial occupancy,
• (c) ducts or air-transfer openings that penetrate a vertical fire separation not required to have a fire-resistance rating, or
• (d) noncombustible ducts or air-transfer openings that penetrate a horizontal fire separation not required to have a fire-resistance rating.

(2)The requirement for fire dampers stated in Sentence 3.1.8.7.(1) is permitted to be waived for noncombustible branch ducts having a melting point above 760°C that penetrate a fire separation,

• (a) provided the ducts
• (i) have a cross-sectional area not more than 0.013 m2 and serve only air-conditioning units or combined air-conditioning and heating units discharging air not more than 1.2 m above the floor, or
• (ii) extend not less than 500 mm inside exhaust duct risers that are under negative pressure and in which the airflow is upward as required by Article 3.6.3.4., or
• (b) where the fire separation separates a vertical service space from the remainder of the building, provided each individual duct exhausts directly to the outdoors at the top of the vertical service space.

(3)In elementary and secondary schools, a continuous noncombustible duct having a melting point above 760°C that pierces a fire separation having a fire-resistance rating of 30 min need not be equipped with a fire damper at the fire separation.

(4)In a Group B, Division 3 occupancy which contains sleeping accommodation for not more than 10 persons, which has not more than six occupants who require assistance in evacuation in case of an emergency and which is equipped with a fire alarm system, a duct need not be equipped with a fire damper at a fire separation, provided duct-type smoke detectors have been installed to control smoke circulation as described in Article 3.2.4.12.

(1)Except as provided in Sentence (2), the requirement for smoke dampers or combination smoke/fire dampers stated in Sentence 3.1.8.7.(2) is permitted to be waived for ducts

• (a) that serve commercial cooking equipment,
• (b) in which all inlet and outlet openings serve not more than one fire compartment,
• (c) that penetrate a vertical fire separation referred to in Clause 3.3.1.7.(1)(b) or in Sentence 3.3.3.5.(4) or 3.3.4.11.(4), provided,
• (i) the movement of air is continuous, and
• (ii) the configuration of the air-handling system prevents the recirculation of exhaust or return air under fire emergency conditions, or
• (d) that penetrate a vertical fire separation not required to have a fire-resistance rating and located within the fire compartment required in Sentence 3.3.3.5.(2).

(2)The requirement for smoke dampers or combination smoke/fire dampers stated in Sentence 3.1.8.7.(2) is permitted to be waived for noncombustible branch ducts having a melting point above 760°C that penetrate a fire separation,

• (a) provided the ducts
• (i) have a cross-sectional area not more than 0.013 m² and serve only air-conditioning units or combined air-conditioning and heating units discharging air not more than 1.2 m above the floor,
• (ii) extend not less than 500 mm inside exhaust duct risers that are under negative pressure and in which the airflow is upward as required by Article 3.6.3.4., or
• (iii) are required to function as part of an air handling system used to provide make-up air in accordance with Sentence 3.2.6.2.(6), or any other system used to limit smoke movement, or
• (b) where the fire separation separates a vertical service space from the remainder of the building, provided each individual duct exhausts directly to the outdoors at the top of the vertical service space.

(1)A fire damper shall be installed in the plane of the fire separation so as to stay in place should the duct become dislodged during a fire.

(2)A fire damper shall be arranged so as to close automatically upon the operation of a fusible link conforming to ULC-S505, "Standard for Fusible Links for Fire Protection Services," or other heat-actuated or smoke-actuated device.

(3)A heat-actuated device referred to in Sentence (2) shall

• (a) be located where it is readily affected by an abnormal rise of temperature in the duct, and
• (b) have a temperature rating approximately 30°C above the maximum temperature that would exist in the system either with the system in operation or shut down.

(4)A fire damper tested in the vertical or horizontal position shall be installed in the position in which it was tested.

(5)A tightly fitted access door shall be installed for each fire damper to provide access for the inspection of the damper and the resetting of the release device.

(1)Where smoke dampers are used as a closure in an air-transfer opening, they shall be installed in the plane of the fire separation.

(2)Where combination smoke/fire dampers are used as a closure in a duct, they shall be installed within 610 mm of the plane of the fire separation, provided there is no inlet or outlet opening between the fire separation and the damper.

(3)Except as required by a smoke control system, smoke dampers and combination smoke/fire dampers shall be configured so as to close automatically upon a signal from an adjacent smoke detector located as described in CAN/ULC-S524, "Standard for Installation of Fire Alarm Systems," within 1.5 m horizontally of the duct or air-transfer opening in the fire separation

• (a) on both sides of the air-transfer opening, or
• (b) in the duct downstream of the smoke damper or combination smoke/fire damper.

(4)Smoke dampers or combination smoke/fire dampers shall be installed in the vertical or horizontal position in which they were tested.

(5)A tightly fitted access door shall be installed for each smoke damper and combination smoke/fire damper to provide access for their inspection and the resetting of the release device.

(1)A door assembly having a fire-protection rating not less than 20 min is permitted to be used as a closure in

• (a) a fire separation not required to have a fire-resistance rating more than 1 h, located between
• (i) a public corridor and a suite,
• (ii) a corridor and adjacent sleeping rooms, or
• (iii) a corridor and adjacent classrooms, offices and libraries in Group A, Division 2 major occupancies, or
• (b) a fire separation not required to have a fire-resistance rating more than 45 min, located in a building not more than 3 storeys in building height.

(2)The requirements for noncombustible sills and combustible floor coverings in NFPA 80, "Standard for Fire Doors and Other Opening Protectives," do not apply to a door described in Sentence (1).

(3)A door described in Sentence (1) shall have clearances of not more than 6 mm at the bottom and not more than 3 mm at the sides and top.

(4)In elementary and secondary schools, a door assembly conforming to Articles 9.10.13.2. and 9.10.13.3. is permitted to be used as a closure in a fire separation having a fire-resistance rating of 30 min.

(1)Except as provided in Sentences (3) to (5) and 3.3.3.2.(5), every door in a fire separation, other than doors to freight elevators and dumbwaiters, shall be equipped with a self-closing device designed to return the door to the closed position after each use.

(2)Reserved.

(3)In a building that is not more than 3 storeys in building height, a self-closing device is not required on a door that is located between a classroom and a corridor providing access to exit from the classroom, except that a self-closing device is required on a door between a hazardous classroom and the corridor in an elementary or secondary school.

(4)In a building that is not more than 3 storeys in building height, a self-closing device is not required on a door between a public corridor and an adjacent room or suite of business and personal services occupancy if the door is not located in,

• (a) a dead-end portion of the corridor, or
• (b) a corridor that serves a hotel.

(5)Within a fire compartment in a hospital or long-term care home that complies with the requirements of Article 3.3.3.5., a self-closing device is not required on a door that is located between

• (a) a patient's or resident's sleeping room and a corridor serving the patient's or resident's sleeping room, or
• (b) a patient's or resident's sleeping room and an adjacent room that serves the patient's or resident's sleeping room.

(1)Except as provided in Sentences 3.1.8.10.(2) and 3.1.8.11.(3), a hold-open device is permitted to be used on a closure in a required fire separation, other than on an exit stair door in a building more than 3 storeys in building height and on a door for a vestibule required by Article 3.3.5.7., provided the device is designed to release the closure in conformance with this Article.

(2)Except as provided in Sentences (5) and (6), where the building is provided with a fire alarm system, a hold-open device permitted by Sentence (1) shall release

• (a) in a single-stage system, upon any signal from the fire alarm system, and
• (b) in a 2-stage system,
• (i) upon any alert signal from the fire alarm system, or
• (ii) upon actuation of any adjacent smoke detectors.

(3)Where the building is provided with a fire alarm system, a hold-open device permitted by Sentence (1) shall release upon a signal from a smoke detector connected to the fire alarm system and located as described in CAN/ULC-S524, "Standard for Installation of Fire Alarm Systems," where the hold-open device is used on

• (a) an exit door,
• (b) a door opening into a public corridor,
• (c) an egress door referred to in Sentence 3.4.2.4.(2),
• (d) a closure serving an assembly, care, care and treatment, detention, or residential occupancy,
• (e) a door in a fire separation referred to in Clause 3.3.1.7.(1)(b) or Sentence 3.3.3.5.(4) or 3.3.4.11.(4), or
• (f) a door required to function as part of a smoke control system.

(4)Where the building is not provided with a fire alarm system, a hold-open device permitted by Sentence (1) shall release upon a signal from a smoke alarm located on either side of the fire separation at ceiling level within 1.5 m horizontally of the closure opening in the fire separation, where the hold-open device is used on closures described in Clauses (3)(a) to (e).

(5)Where a hold-open device is used on closures other than those described in Sentences (3) and (4), it is permitted to be released upon actuation of a heat-actuated device.

(6)A hold-open device used on a door located between a corridor used by the public and an adjacent sleeping room in a care and treatment occupancy need not release automatically as stated in Sentence (2).

(1)Except as permitted by Sentence 3.3.3.2.(5) and Article 3.3.3.5., a swing-type door in a fire separation shall be equipped with a positive latching mechanism designed to hold the door in the closed position after each use.

(1)Except as permitted by Articles 3.1.8.18. and 3.1.8.19. for the separation of exits, an opening in a fire separation having a fire-resistance rating not more than 1 h is permitted to be protected with fixed wired glass assemblies or glass blocks installed in conformance with NFPA 80, "Standard for Fire Doors and Other Opening Protectives."

(2)Wired glass assemblies permitted by Sentence (1) and described in MMAH Supplementary Standard SB-2, "Fire Performance Ratings," are permitted to be used as closures in vertical fire separations without being tested in accordance with Sentence 3.1.8.4.(1).

(3)Glass blocks permitted by Sentence (1) shall be installed in accordance with Subsection 4.3.2. and reinforced with steel reinforcement in each horizontal joint.

(1)Except as permitted by Article 3.1.8.19., the maximum temperature rise on the opaque portion of the unexposed side of a door used as a closure in a fire separation in a location shown in Table 3.1.8.17. shall conform to the Table when tested in conformance with Sentence 3.1.8.4.(1).

(1)Except as permitted by Article 3.1.8.19., the maximum aggregate area of wired glass or safety glazing in a door used in the locations shown in Table 3.1.8.17. shall conform to the Table.

(2)Except as permitted by Article 3.1.8.19., the maximum aggregate area of glass block, wired glass or safety glazing panels not in a door used in the locations shown in Table 3.1.8.17. shall conform to the Table.

(1)The temperature rise limits and glass area limits required by Articles 3.1.8.17. and 3.1.8.18. are waived for a closure between an exit enclosure and an enclosed vestibule or corridor, provided

• (a) the vestibule or corridor is separated from the remainder of the floor area by a fire separation having a fire-resistance rating not less than 45 min,
• (b) the fire separation required by Clause (a) contains no wired glass, glass block or safety glazing within 3 m of the closure into the exit enclosure, and
• (c) the vestibule or corridor contains no occupancy.

(1)A sprinkler protected glazed wall assembly shall be constructed in accordance with the requirements of CAN/ULC-S136, "Standard Method of Fire Test of Sprinkler Protected Window Systems."

(2)A sprinkler protected glazed wall assembly shall not be installed in

• (a) fire separations requiring a fire-resistance rating of more than 2 h,
• (b) a firewall,
• (c) a high-hazard industrial occupancy, or
• (d) any part of an exit serving
• (i) a floor area subject to the requirements of Subsection 3.2.6.,
• (ii) a care occupancy,
• (iii) a care and treatment occupancy,
• (iv) a detention occupancy, or
• (v) a residential occupancy.

(3)Where a sprinkler protected glazed wall assembly is installed in an exit fire separation permitted in Sentence (2),

• (a) the building shall be sprinklered throughout, and
• (b) the exits protected with the sprinkler protected glazed wall assemblies shall not comprise more than one-half of the required number of exits from any floor area.

(1)Except as provided in Sentences (2) to (7) and Article 3.1.9.3., penetrations of a fire separation or a membrane forming part of an assembly required to have a fire-resistance rating shall be

• (a) sealed by a firestop that, when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems," has an F rating not less than the required fire-resistance rating of the fire separation, or
• (b) cast-in-place, where the item penetrating the fire separation is steel, ferrous, copper, concrete or masonry.

(2)Except as permitted in Sentence (6), penetrations of a firewall or a horizontal fire separation that is required to have a fire-resistance rating in conformance with Article 3.2.1.2. shall be sealed at the penetration by a firestop that, when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems," has an FT rating not less than the fire-resistance rating for the fire separation.

(3)Except as permitted in Sentences (6) and (7), penetrations of a fire separation in conformance with Sentence 3.6.4.2.(2) shall be sealed by a firestop that, when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems," has an FT rating not less than the fire-resistance rating for the fire separation of the assembly.

(4)Sprinklers are permitted to penetrate a fire separation or a membrane forming part of an assembly required to have a fire-resistance rating without having to meet the firestop requirements of Sentences (1) to (3), provided the annular space created by the penetration of a fire sprinkler is covered by a metal escutcheon plate in accordance with NFPA 13, "Standard for the Installation of Sprinkler Systems."

(5)Unless specifically designed with a firestop, fire dampers are permitted to penetrate a fire separation or a membrane forming part of an assembly required to have a fire-resistance rating without having to meet the firestop requirements of Sentences (1) to (3), provided the fire damper is installed in conformance with NFPA 80, "Standard for Fire Doors and Other Opening Protectives."

(6)Service equipment penetrations through a horizontal fire separation having a fire-resistance rating as described in Sentences (2) and (3) that are contained within the cavity of a wall above and below the horizontal fire separation are permitted to be sealed at the penetration by a firestop that, when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems," has an F rating not less than the fire-resistance rating for the fire separation.

(7)Service equipment penetrations through a horizontal fire separation having a fire-resistance rating as described in Sentence (3) are permitted to be sealed at the penetration by a firestop that, when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems," has an F rating not less than the fire-resistance rating for the fire separation, provided the penetration

• (a) is contained within the concealed space of a floor or ceiling assembly having a fire-resistance rating,
• (b) is located above a ceiling membrane that is a horizontal fire separation, or
• (c) is contained within a horizontal service space conforming to Subsection 3.6.4. that is directly above or below the floor.

(1)Ducts, electrical outlet boxes, pipes, totally enclosed raceways, optical fibre cables, electrical wires and cables, and other similar service equipment are permitted to penetrate a fire separation or a membrane forming part of an assembly required to have a fire-resistance rating, provided they are protected at the penetration with a firestop conforming to Sentence 3.1.9.1.(1).

(2)Combustible totally enclosed raceways that are embedded in a concrete floor slab are permitted in an assembly required to have a fire-resistance rating, provided the concrete cover between the raceway and the bottom of the slab is not less than 50 mm.

(1)Except as provided in Sentence (3), outlet boxes are permitted to penetrate the membrane of an assembly required to have a fire-resistance rating, provided they are sealed at the penetration by a firestop that has an FT rating not less than the fire-resistance rating of the fire separation when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems."

(2)Combustible outlet boxes are permitted to penetrate the membrane of an assembly required to have a fire-resistance rating, provided they are sealed at the penetration by a firestop that, when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems," has an FT rating not less than the fire-resistance rating for the fire separation.

(3)Except as provided in Sentences 3.1.9.1.(2) and (3), noncombustible outlet boxes that penetrate a vertical fire separation or a membrane forming part of an assembly required to have a fire-resistance rating need not conform to Sentence (1), provided

• (a) they do not exceed,
• (i) 0.016 m² in area, and
• (ii) an aggregate area of 0.065 m² in any 9.3 m² of surface area, and
• (b) the annular space between the membrane and noncombustible electrical outlet boxes does not exceed 3 mm.

(4)Outlet boxes on opposite sides of a vertical fire separation having a fire-resistance rating shall be separated by

• (a) a horizontal distance of not less than 600 mm,
• (b) a fire block conforming to Article 3.1.11.7., or
• (c) a firestop installed on each outlet box that has an FT rating not less than the fire-resistance rating of the fire separation when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems."

(1)Combustible sprinkler piping is permitted to penetrate a fire separation provided the fire compartments on each side of the fire separation are sprinklered.

(2)Combustible water distribution piping is permitted to penetrate a fire separation that is required to have a fire-resistance rating, provided the piping is protected at the penetration with a firestop in conformance with Clause (4)(a) or (b).

(3)Except as permitted by Sentences (4), (5), (7) and (8), combustible piping shall not be used in a drain, waste and vent piping system if any part of that system penetrates

• (a) a fire separation required to have a fire-resistance rating, or
• (b) a membrane that forms part of an assembly required to have a fire-resistance rating.

(4)Combustible drain, waste and vent piping is permitted to penetrate a fire separation required to have a fire-resistance rating or a membrane that forms part of an assembly required to have a fire-resistance rating, provided

• (a) except as provided in Clause (b), the piping is sealed at the penetration by a firestop that has an F rating not less than the fire-resistance rating required for the fire separation when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems,"
• (b) in buildings more than 3 storeys in building height, the piping is sealed at the penetration by a firestop that has an F rating not less than the fire-resistance rating required for the fire separation when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems," with a pressure differential of 50 Pa between the exposed and unexposed sides, with the higher pressure on the exposed side, and
• (c) the piping is not located in a vertical service space.

(5)Combustible drain, waste and vent piping is permitted on one side of a vertical fire separation provided it is not located in a vertical service space.

(6)Combustible piping for central vacuum systems is permitted to penetrate a fire separation, provided the installation conforms to the requirements that apply to combustible drain, waste and vent piping specified in Sentence (4).

(7)Except as provided in Sentence (8), penetrations of a fire separation that incorporate transitions between combustible and noncombustible drain, waste and vent piping shall be sealed by a firestop that has an F rating not less than the fire-resistance rating required for the fire separation when subjected to the fire test method in CAN/ULC-S115, "Standard Method of Fire Tests of Firestop Systems," with a pressure differential of 50 Pa between the exposed and unexposed sides, with the higher pressure on the exposed side.

(8)Transitions between vertical noncombustible drain, waste and vent piping and combustible branches for drain, waste and vent piping are permitted on either side of a fire separation, provided they are not located in a vertical service space.

(9)Combustible piping not more than 25 mm in diameter containing chlorine gas is permitted to penetrate a fire separation between a chlorine gas service room built in conjunction with a public pool or public spa and the remainder of the building, provided the piping is sealed at the penetration by a firestop in conformance with Clause 3.1.9.1.(1)(a).

(1)A membrane ceiling forming part of an assembly assigned a fire-resistance rating on the basis of MMAH Supplementary Standard SB-2, "Fire Performance Ratings," is permitted to be penetrated by openings leading into ducts within the ceiling space provided

• (a) the ducts are sheet steel, and
• (b) the number of openings and their protection conform to the requirements of MMAH Supplementary Standard SB-2, "Fire Performance Ratings."

(2)Fire stop flaps in ceiling membranes required in Sentence (1) shall conform to CAN/ULC-S112.2, "Standard Method of Fire Test of Ceiling Firestop Flap Assemblies."

(1)A ceiling assembly used as a plenum shall conform to Article 3.6.4.3.

(1)Except as permitted by Sentence (2), the connections and supports for structural framing members that are connected to or supported on a firewall and have a fire-resistance rating less than that required for the firewall, shall be designed so that the failure of the framing systems during a fire will not affect the integrity of the firewall during the fire.

(2)Sentence (1) does not apply to a firewall consisting of two separate wall assemblies each tied to its respective building frame but not to each other, provided each wall assembly is

• (a) a fire separation having one-half of the fire-resistance rating required for the firewall by Sentences 3.1.10.2.(1) and (2), and
• (b) designed so that the collapse of one wall assembly will not cause collapse of the other.

(3)A firewall is permitted to be supported on the structural frame of a building of noncombustible construction provided the supporting frame has a fire-resistance rating not less than that required for the firewall.

(4)Piping, ducts and totally enclosed noncombustible raceways shall be installed so that their collapse will not cause collapse of the firewall.

(1)A firewall that separates a building or buildings with floor areas containing a Group E or a Group F, Division 1 or 2 major occupancy shall be constructed as a fire separation of noncombustible construction having a fire-resistance rating not less than 4 h, except that where the upper portion of a firewall separates floor areas containing other than Group E or Group F, Division 1 or 2 major occupancies, the fire-resistance rating of the upper portion of the firewall is permitted to be not less than 2 h.

(2)A firewall that separates a building or buildings with floor areas containing major occupancies other than Group E or Group F, Division 1 or 2 shall be constructed as a fire separation of noncombustible construction having a fire-resistance rating not less than 2 h.

(3)Except as permitted by Sentence (4), the required fire-resistance rating of a firewall, except for closures, shall be provided by masonry or concrete.

(4)A firewall permitted to have a fire-resistance rating not more than 2 h need not be constructed of masonry or concrete provided

• (a) the assembly providing the fire-resistance rating is protected against damage that would compromise the integrity of the assembly,
• (b) the design conforms to Article 4.1.5.17.,
• (c) the level of performance of the firewall is not less than of masonry or concrete in the areas of (i) performance during fire conditions, (ii) mechanical damage during the normal use of the building, and (iii) resistance to damage from moisture,
• (d) the firewall separates buildings or buildings with floor areas that do not contain (i) a Group B, Division 1 major occupancy, or (ii) a Group B, Division 2 major occupancy, and
• (e) the firewall does not separate a building regulated by the provisions of Subsection 3.2.6. or a building within the scope of Article 3.2.2.51. or 3.2.2.60. from another building unless the buildings on both sides of the firewall are sprinklered.

(1)A firewall shall extend from the ground continuously through, or adjacent to, all storeys of a building or buildings so separated, except that a firewall located above a basement storage garage conforming to Article 3.2.1.2. is permitted to commence at the floor assembly immediately above the storage garage.

(2)A firewall is permitted to terminate on the underside of a reinforced concrete roof slab provided

• (a) the roof slab on both sides of the firewall has a fire-resistance rating not less than (i) 1 h if the firewall is required to have a fire-resistance rating not less than 2 h, or (ii) 2 h if the firewall is required to have a fire-resistance rating not less than 4 h, and
• (b) there are no concealed spaces within the roof slab in that portion immediately above the firewall.

(1)Except as permitted by Sentences (2) and 3.1.10.3.(2), a firewall shall extend above the roof surface to form a parapet not less than

• (a) 150 mm high for a firewall required to have a fire-resistance rating not less than 2 h, and
• (b) 900 mm high for a firewall required to have a fire-resistance rating not less than 4 h.

(2)A firewall that separates 2 buildings with roofs at different elevations need not extend above the upper roof surface to form a parapet, provided the difference in elevation between the roofs is more than 3 m.

(1)Openings in a firewall shall conform to the size limits described in Article 3.1.8.6.

(2)The aggregate width of openings in a firewall within a storey shall be not more than 25% of the entire length of the firewall.

(1)The requirements of Article 3.2.3.14. shall apply to the external walls of 2 buildings that meet at a firewall at an angle less than 135.

(1)Combustible material shall not extend across the end of a firewall but is permitted to extend across a roof above a firewall that is terminated in conformance with Sentence 3.1.10.3.(2).

(2)If buildings are separated by a firewall, combustible projections on the exterior of one building, including balconies, platforms, canopies, eave projections and stairs, that extend outward beyond the end of the firewall, shall not be permitted within 2.4 m of combustible projections and window or door openings of the adjacent building.

(1)Concealed spaces in interior wall, ceiling and crawl spaces shall be separated from concealed spaces in exterior walls and attic or roof spaces by fire blocks conforming to Article 3.1.11.7.

(1)Except as permitted by Sentence (2), fire blocks conforming to Article 3.1.11.7. shall be provided to block off concealed spaces within a wall assembly

• (a) at every floor level,
• (b) at every ceiling level where the ceiling forms part of an assembly required to have a fire-resistance rating, and
• (c) so that the maximum horizontal dimension is not more than 20 m and the maximum vertical dimension is not more than 3 m.

(2)Fire blocks conforming to Sentence (1) are not required provided

• (a) the wall space is filled with insulation,
• (b) the exposed construction materials and any insulation within the wall space are noncombustible,
• (c) the exposed materials within the wall space, including insulation but not including wiring, piping or similar services, have a flame-spread rating not more than 25 on any exposed surface, or on any surface that would be exposed by cutting through the material in any direction, and fire blocks are installed so that the vertical distance between them is not more than 10 m, or
• (d) the insulated wall assembly contains not more than one concealed air space, and the horizontal thickness of that air space is not more than 25 mm.

(1)In a building required to be of noncombustible construction, a concealed space in which there is an exposed ceiling finish with a flame-spread rating more than 25, shall be provided with fire blocks conforming to Article 3.1.11.7. between wood nailing elements, so that the maximum area of the concealed space is not more than 2 m2.

(2)In a building required to be of noncombustible construction, fire blocks conforming to Article 3.1.11.7. shall be provided in the concealed spaces created by the wood members permitted by Sentence 3.1.5.10.(2), so that the maximum area of a concealed space is not more than 10 m2.

(3)In a building or part of a building permitted to be of encapsulated mass timber construction, a concealed space in which there is an exposed ceiling finish with a flame-spread rating more than 25 shall be provided with fire blocks conforming to Article 3.1.11.7. between wood nailing elements so that the maximum area of the concealed space is not more than 2 m2.

(4)In a building or part of a building permitted to be of encapsulated mass timber construction, fire blocks conforming to Article 3.1.11.7. shall be provided in the concealed spaces created by the wood members permitted by Sentence 3.1.6.12.(1) so that the maximum area of a concealed space is not more than 10 m2.

(1)Fire blocks conforming to Article 3.1.11.7. shall be provided

• (a) at all interconnections between concealed vertical and horizontal spaces in interior coved ceilings, drop ceilings and soffits in which the exposed construction materials within the space have a flame-spread rating more than 25, and
• (b) at the end of each run and at each floor level in concealed spaces between stair stringers in which the exposed construction materials within the space have a flame-spread rating more than 25.

(1)Except for crawl spaces conforming to Sentence 3.1.11.6.(1) and as required in Sentence (3), horizontal concealed spaces within a floor assembly or roof assembly of combustible construction, in which sprinklers are not installed, shall be separated by construction conforming to Article 3.1.11.7. into compartments

• (a) not more than 600 m2 in area with no dimension more than 60 m, if the exposed construction materials within the space have a flame-spread rating not more than 25, and
• (b) not more than 300 m2 in area with no dimension more than 20 m, if the exposed construction materials within the space have a flame-spread rating more than 25.

(2)A concealed space in an exterior cornice, a mansard style roof, a balcony or a canopy in which exposed construction materials within the space have a flame-spread rating more than 25, shall be separated by construction conforming to Article 3.1.11.7.

• (a) at locations where the concealed space extends across the ends of required vertical fire separations, and
• (b) so that the maximum dimension in the concealed space is not more than 20 m.

(3)Except as provided by Sentence (5), in buildings or parts thereof conforming to Article 3.2.2.51. or 3.2.2.60., horizontal concealed spaces within a floor assembly or roof assembly of combustible construction shall be separated by construction conforming to Article 3.1.11.7. into compartments that are

• (a) not more than 600 m2 in area with no dimension more than 60 m, if the exposed construction materials within the space have a flame-spread rating not more than 25, and
• (b) not more than 300 m2 in area with no dimension more than 20 m, if the exposed construction materials within the space have a flame-spread rating more than 25.

(4)Except for crawl spaces conforming to Sentence 3.1.11.6.(1) and except as provided in Sentence (5), in buildings or parts thereof conforming to Article 3.2.2.48., 3.2.2.57. or 3.2.2.93., horizontal concealed spaces within a floor assembly or roof assembly of encapsulated mass timber construction shall be separated by construction conforming to Article 3.1.11.7. into compartments that are

• (a) not more than 600 m2 in area with no dimension more than 60 m, if the exposed construction materials within the space have a flame-spread rating not more than 25, and
• (b) not more than 300 m2 in area with no dimension more than 20 m, if the exposed construction materials within the space have a flame-spread rating more than 25.

(5)Fire blocks conforming to Sentences (3) and (4) are not required where the horizontal concealed space within the floor or roof assembly is entirely filled with noncombustible insulation such that any air gap between the top of the insulation and the floor or roof deck does not exceed 50 mm.

(1)A crawl space that is not considered as a basement by Article 3.2.2.9. and in which sprinklers are not installed shall be separated by construction conforming to Article 3.1.11.7. into compartments not more than 600 m2 in area with no dimension more than 30 m.

(1)Except as permitted by Sentences (2) to (5) and (8), fire blocks shall remain in place and prevent the passage of flames for not less than 15 min when subjected to the standard fire exposure in CAN/ULC-S101, "Standard Method of Fire Endurance Tests of Building Construction and Materials."

(2)Gypsum board not less than 12.7 mm thick and sheet steel not less than 0.38 mm thick need not be tested in conformance with Sentence (1) provided all joints have continuous support.

(3)In a building required to be of noncombustible construction, wood nailing elements described in Article 3.1.5.8. need not be tested in conformance with Sentence (1).

(4)In a building or part of a building permitted to be of encapsulated mass timber construction, wood nailing elements referred to in Article 3.1.6.11. need not be tested in conformance with Sentence (1).

(5)In a building permitted to be of combustible construction, in a combustible roof system permitted by Sentences 3.1.5.3.(2) and 3.1.6.7.(1), and in a raised platform permitted by Sentence 3.1.5.10.(2) or 3.1.6.12.(1), fire blocks are permitted to be

• (a) solid lumber or a structural composite lumber product conforming to ASTM D5456, "Standard Specification for Evaluation of Structural Composite Lumber Products," not less than 38 mm thick,
• (b) phenolic bonded plywood, OSB, waferboard or oriented strandboard not less than 12.5 mm thick with joints supported, or
• (c) two thicknesses of lumber or a structural composite lumber product conforming to ASTM D5456, "Standard Specification for Evaluation of Structural Composite Lumber Products," each not less than 19 mm thick with joints staggered, where the width or height of the concealed space requires more than one piece of lumber or structural composite lumber product not less than 38 mm thick to block off the space.

(6)Openings through materials referred to Sentences (1) to (5) shall be protected to maintain the integrity of the construction.

(7)Where materials referred to Sentences (1) to (5) are penetrated by construction elements or by service equipment, a firestop shall be used to seal the penetration.

(8)In buildings permitted to be of combustible construction, semi-rigid fibre insulation board produced from glass, rock or slag is permitted to be used to block the vertical space in a double stud wall assembly formed at the intersection of the floor assembly and the walls, provided the width of the vertical space does not exceed 25 mm and the insulation board

• (a) has a density not less than 45 kg/m3,
• (b) is securely fastened to one set of studs,
• (c) extends from below the bottom of the top plates in the lower storey to above the top of the bottom plate in the upper storey, and
• (d) completely fills the portion of the vertical space between the headers and between the wall plates.

(1)Except as required by Sentence (2) and as permitted by Sentence (3), the flame-spread rating and smoke developed classification of a material, assembly, or structural member shall be determined on the basis of not less than three tests conducted in conformance with CAN/ULC-S102, "Standard Method of Test for Surface Burning Characteristics of Building Materials and Assemblies."

(2)The flame-spread rating and smoke developed classification of a material or assembly shall be determined on the basis of not less than three tests conducted in conformance with CAN/ULC-S102.2, "Standard Method of Test for Surface Burning Characteristics of Flooring, Floor Coverings, and Miscellaneous Materials and Assemblies," if the material or assembly

• (a) is designed for use in a relatively horizontal position with only its top surface exposed to air,
• (b) cannot be tested in conformance with Sentence (1) without the use of supporting material that is not representative of the intended installation, or
• (c) is thermoplastic.

(3)A material, assembly, or structural member is permitted to be assigned a flame-spread rating and smoke developed classification on the basis of MMAH Supplementary Standard SB-2, "Fire Performance Ratings."

(1)Except as otherwise provided in this Subsection, interior finishes, furnishings and decorative materials shall conform to

• (a) the Fire Code made under the Fire Protection and Prevention Act, 1997, or
• (b) Section 2.3. of Division B of the CCBFC NRC-CONST-56437E, "National Fire Code of Canada", in the absence of regulations referred to in Clause (a).

(2)Interior finish material shall include any material that forms part of the interior surface of a floor, wall, partition or ceiling, including

• (a) interior cladding of plaster, wood or tile,
• (b) surfacing of fabric, paint, plastic, veneer or wallpaper,
• (c) doors, windows and trim,
• (d) lighting elements, such as light diffusers and lenses forming part of the finished surface of the ceiling, and
• (e) carpet material that overlies a floor that is not intended as the finished floor.

(1)Except as otherwise required or permitted by this Subsection, the flame-spread rating of interior wall and ceiling finishes, including glazing and skylights, shall be not more than 150 and shall conform to Table 3.1.13.2.

(2)Except as permitted by Sentence (3), doors, other than those in Group A, Division 1 occupancies, need not conform to Sentence (1) provided they have a flame-spread rating not more than 200.

(3)Doors within a dwelling unit need not conform to Sentences (1) and (2).

(4)Up to 10% of the total wall area and 10% of the total ceiling area of a wall or ceiling finish that is required by Sentence (1) to have a flame-spread rating less than 150 is permitted to have a flame-spread rating not more than 150, except that up to 25% of the total wall area of lobbies described in Sentence 3.4.4.2.(2) is permitted to have a flame-spread rating not more than 150.

(5)Except in the case of Group A, Division 1 occupancies, combustible doors, skylights, glazing and light diffusers and lenses shall not be considered in the calculation of wall and ceiling areas described in Sentence (4).

(1)Except as provided by Sentences (2) to (4), every roof covering shall have a Class A, B or C classification as determined in accordance with Article 3.1.15.1.

(2)A roof covering is not required to have a Class A, B or C classification for

• (a) a tent,
• (b) an air-supported structure,
• (c) a building of Group A, Division 2 occupancy not more than 2 storeys in building height and not more than 1 000 m2 in building area, provided the roof covering is underlaid with noncombustible material, or
• (d) a steel building system described in Article 4.3.4.3., provided the roof covering consists of brick, masonry, concrete, metal sheets or metal shingles.

(3)Except as provided in Sentence (5), roof coverings on buildings conforming to Article 3.2.2.51. or 3.2.2.60. shall have a Class A classification where the roof height is greater than 25 m measured from the floor of the first storey to the highest point of the roof.

(4)Except as provided in Sentence (5), roof coverings in buildings or parts of buildings permitted to be of encapsulated mass timber construction shall have a Class A classification if the roof height is greater than 25 m measured from the floor of the first storey to the highest point of the roof.

(5)Where buildings or parts thereof conforming to Article 3.2.2.48., 3.2.2.51., 3.2.2.57., 3.2.2.60. or 3.2.2.93. include non-contiguous roof assemblies at different elevations, the roof coverings referred to in Sentences (3) and (4) are permitted to be evaluated separately to determine the roof covering classification required.

(1)Fabrics used as part of an awning, canopy or marquee that is located within or attached to a building of any type of construction shall conform to CAN/ULC-S109, "Standard Method of Flame Tests of Flame-Resistant Fabrics and Films."

(1)The occupant load of a floor area or part of a floor area, shall be based on

• (a) the number of seats in an assembly occupancy having fixed seats,
• (b) 2 persons per sleeping room in a dwelling unit, or
• (c) the number of persons for which the area is designed, but not less than that determined from Table 3.1.17.1. for occupancies other than those described in Clauses (a) and (b), unless it can be shown that the area will be occupied by fewer persons.

(2)If a floor area or part thereof it has been designed for an occupant load other than that determined from Table 3.1.17.1., a permanent sign indicating that occupant load shall be posted in a conspicuous location.

(3)For the purposes of this Article, mezzanines, tiers and balconies shall be regarded as part of the floor area.

(4)If a room or group of rooms is intended for different occupancies at different times, the value to be used from Table 3.1.17.1. shall be the value that gives the greatest number of persons for the occupancies concerned.

(1)The occupant load of a public pool, except a wave action pool, shall be determined by the following formula: occupant load = D/5.2 + S/1.4 where, D = the water surface area in square metres of the part of the pool that is deeper than 1 350 mm; and S = the water surface area in square metres of the part of the pool that is 1 350 mm in depth or less.

(2)The occupant load of a wave action pool shall be determined by the following formula: occupant load = D/5.2 + S/1.1 where, D = the water surface area in square metres of the part of the pool where the still water depth is greater than 1 000 mm; and S = the water surface area in square metres of the part of the pool where the still water depth is 1 000 mm or less.

(1)The building shall be located and the building site graded so that water will not accumulate at or near the building and will not adversely affect any adjacent properties.

(1)A building shall not be located beneath existing above ground electrical conductors.

(2)The horizontal clearance measured from the maximum conductor swing to the building, including balconies, fire escapes, flat roofs or other accessible projections beyond the face of the building, shall,

• (a) be not less than 1 m, for electrical conductors carrying voltages 750 V or less, except where necessary to connect to the electrical wiring of the building,
• (b) be not less than 3 m, for electrical conductors carrying voltages greater than 750 V but not exceeding 46 kV,
• (c) be not less than 3.7 m, for electrical conductors carrying voltages greater than 46 kV but not exceeding 69 kV, or
• (d) conform to the requirements of CAN/CSA-C22.3 No.1, "Overhead Systems," for electrical conductors carrying voltages greater than 69 kV.

(3)Where the swing of an above ground electrical conductor not owned or operated by an electrical supply authority is not known, a swing of not less than 1.8 m shall be used.

(4)Sentences (1) to (3) do not apply to a building containing electrical equipment and electrical installations used exclusively in the generation, transformation or transmission of electrical power or energy intended for sale or distribution to the public.

(1)Except as provided in Sentence 3.3.4.7.(2), glass in guards shall conform to MMAH Supplementary Standard SB-13, "Glass in Guards."