(1) This Specification applies to installations permitted under the Deemed-to-Satisfy Provisions of the NCC as alternatives to systems that have been demonstrated by test to fulfil the requirements of C4D15(2)(a).
(2) This Specification does not apply to installations in ceilings required to have a resistance to the incipient spread of fire nor to the installation of piping that contains or is intended to contain a flammable liquid or gas.
(1) A pipe system comprised entirely of metal (excluding pipe seals or the like) that is not normally filled with liquid must not be located within 100 mm, for a distance of 2 m from the penetration, of any combustible building element or a position where combustible material may be located, and must be constructed of—
copper alloy or stainless steel with a wall thickness of at least 1 mm; or
cast iron or steel (other than stainless steel) with a wall thickness of at least 2 mm.
(2) An opening for a pipe system comprised entirely of metal (excluding pipe seals or the like) must—
be neatly formed, cut or drilled; and
be no closer than 200 mm to any other service penetration; and
accommodate only one pipe.
(3) A pipe system comprised entirely of metal (excluding pipe seals or the like) must be wrapped but must not be lagged or enclosed in thermal insulation over the length of its penetration of a wall, floor or ceiling unless the lagging or thermal insulation fulfils the requirements of S13C7.
(4) The gap between a metal pipe and the wall, floor or ceiling it penetrates must be fire-stopped in accordance with S13C7.
(1) Material: The material used for the fire-stopping of service penetrations must be concrete, high-temperature mineral fibre, high-temperature ceramic fibre or other material that does not flow at a temperature below 1120°C when tested in accordance with ISO 540, and must have—
demonstrated in a system tested in accordance with C4D15(2)(a) that it does not impair the fire-resisting performance of the building element in which it is installed; or
demonstrated in a test in accordance with (5) that it does not impair the fire-resisting performance of the test slab.
(2) Installation: Fire-stopping material must be packed into the gap between the service and wall, floor or ceiling in a manner, and compressed to the same degree, as adopted for testing under (1)(a) or (b).
(3) Hollow construction: If a pipe penetrates a hollow wall (such as a stud wall, a cavity wall or a wall of hollow blockwork) or a hollow floor/ceiling system, the cavity must be so framed and packed with fire-stopping material that is—
installed in accordance with (2) to a thickness of 25 mm all round the service for the full length of the penetration; and
restrained, independently of the service, from moving or parting from the surfaces of the service and of the wall, floor or ceiling.
(4) Recesses: If an electrical switch, socket, outlet or the like is accommodated in a recess in a hollow wall or hollow floor/ceiling system—
the cavity immediately behind the service must be framed and packed with fire-stopping material in accordance with (3); or
the back and sides of the service must be protected with refractory lining board identical with and to the same thickness as that in which the service is installed.
(5) Test: The test to demonstrate compliance of a fire-stopping material with this Specification must be conducted as follows:
The test specimen must comprise a concrete slab not less than 1 m square and not more than 100 mm thick, and appropriately reinforced if necessary for structural adequacy during manufacture, transport and testing.
The slab must have a hole 50 mm in diameter through the centre and the hole must be packed with the fire-stopping material.
The slab must be conditioned in accordance with AS 1530.4.
Two thermocouples complying with AS 1530.4 must be attached to the upper surface of the packing each about 5 mm from its centre.
The slab must be tested on flat generally in accordance with Section 10 of AS 1530.4 and must achieve an FRL of 60/60/60 or as otherwise required.