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Firewalls, protruding THROUGH a roof, with sheet metal flashing on top to preserve the building envelope, separating a building into separate parts. Firewalls are constructed of concrete or concrete blocks, in such a manner as to obtain a fire-resistance rating, as well as to ensure that if there is structural collapse as a result of a fire on one side, this collapse cannot carry over to the other side. Codewise, one may thus reduce the area, as if each segment is a separate building, to avoid the cost of having to install a sprinkler system. Penetrants must be run in such a way as to avoid damage to a firewall. Firestops in firewalls typically have to achieve T-Ratings equivalent to the fire-resistance rating of the wall. |
New firewall in Canadian residential construction, about to be finished with sheet metal flashing to preserve the building envelope. The firewall clearly separates the building into two separate residential units, such that fire, smoke and structural damage that occurs as a result of a gas leak, cannot carry over to the unexposed side. |
Firewall, as seen on the inside of a newly constructed townhouse unit in Aurora, Ontario. One can clearly see how the firewall goes past the roofline. |
In construction, a firewall is a passive fire protection item that is required to have a special and unique Fire-resistance rating in accordance with a certification listing. It is a fire-resistance rated wall assembly that has been constructed in such a manner as to subdivide a building into legal and practical segments in accordance with the locally applicable building code.
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Common methods of cheating or cutting corners, where firewalls are concerned, include the substitution with drywall assemblies of equal or lesser fire-resistance ratings, as a novice would not notice such an economically motivated substitution. In North America, this is most likely to occur in residential construction, with buildings below four stories high.
The most novel, lightweight approach to building firewalls that pass the tough German DIN4102 test as well as North American test regimes including the hose-stream test includes the use of mechanically bonded sheet metal and concrete composite boards ("DuraSteel"). Even though this is a much lighter and fast construction method than the norm, it meets code because it contains a small amount of concrete, albeit cellulose reinforced, with a mostly sacrificial exposed side, as its hydrates are quickly spent and the fibres are ineffective in holding together the loose powder that is left over from what used to be integral concrete, after even small fire exposures. As a system, however, with a front and a back on each side of the framework, it works very well under any test regime the world over.
The firewall in an automobile (indicated by the red line)
Jeep Liberty firewall insulation
Firewalls are also regularly found in aircraft and in specially prepared cars for compartmentalisation and competition use. For example, a typical conversion of a production car for rallying will include a metal firewall which seals the fuel tank off from the interior of the vehicle. In the event of an accident, resulting in fuel spillage, the firewall can prevent burning fuel from entering the passenger compartment, where it could cause serious injury or death. In regular stock cars, the firewall separates the engine compartment from the cabin and can, at times, contain fibreglass insulation. Automotive firewalls have to be fitted so that they form a complete seal. Usually this is done by bonding the sheet metal to the bodywork using fibreglass resin.
The term firewall is also commonly used by automotive mechanics to refer to the barrier between the passenger and engine compartments of any vehicle.
This article is licensed under the GNU Free Documentation License. It uses material from Wikipedia
