- Fire door
A fire door is a type of
door, or barrier used as a passive fire protectionitem within buildingsto prevent the spread of fireor smokewhich may consist of dangerous chemicals. It is usually the only means of allowing people to pass through a fire-resistance rated wall assembly.
Fire doors are made of a combination of materials, such as:
gypsum(as an endothermicfill)
Together, these components form a
systemwhich holds the rating.
Apart from the "
doorleaf (smaller door situated next to lager door)", there is the "doorframe" which also has to meet fire rated regulations , the "door hardware" and the "structure" that holds the fire door assembly in place.
Door hardware includes, but is not limited to:
*manual or automatic closing devices
Edges of a fire door usually need to have fire rated seals which can be composed of:
Intumescent seals are crucial in the fire performance of a fire resisting door set and as such the correct seal should always be used as theses products differ in chemical composition, expansion rate, expansion volume and charring characteristics.
Some fire doors are equipped with internal
windows which also have a rating, or have been incorporated at the time of the door test and be subject to the overall door's product certification. Fire-resistive windows must remain intact under fire conditions and hose stream impact resistance, and can include:
*wire mesh glass
sodium silicatefills between two window panes
Wired glass typically withstands the fire, whereas the sodium silicate liquid also acts to insulate heat transfer, due to the
endothermicaction of this chemical.
All components are required to adhere to
product certificationrequirements that are acceptable to the local Authority Having Jurisdiction(AHJ) by meeting the requirements of the local building codeand fire code. The regulatory requirement will change from country to country. For example in the United Kingdom a fire resisting doorset should be sujected to either a British Standard Fire Test BS 476 Part 22 1987, or a BS/EN 1634-1 2000 test. The results are recorded by the test house or Institute and given in a report which will also detail such things as constructional details, distortion data and pressure readings.These tests are applicable to the performance of the specimen tested.It is the Building Regulations approved Document B or British Standards such as the BS 5588 series which lays down the criterai for the fire performance such as 30 minutes FD30 or FD30(S) if cold smoke resistance is required.
Fire doors are not necessarily all noncombustible. A fire door is but one of many passive
fire protectioncomponents used to compartmentalise fire and thus keep it in the compartment of origin, so either it runs out of fuel or it is extinguished, or, at the very least, enough time has been bought to enable evacuation of the building.
Fire door failure
Fire doors are sometimes rendered unable to provide its listed fire resistance by ignorance of the intended use and associated restrictions and requirements, or by inappropriate use. For example, fire doors are sometimes blocked open, or carpets are run through them, which would allow the fire to travel past the fire barrier in which the door is placed. The door's
certification markings are displayed both on the door leaves and the fire door frames, and should not be removed or painted over. Such neglectis the responsibility of the building owner, who should educate occupants on the safe use of all safety related items, to ensure fire safety and compliance with the fire code.
Sometimes fire doors have apparently very large gaps at the foot of them, an inch or two even, allowing air movement, especially in dormitory facilities. This can lead the occupants of a building to question their status as 'real' fire doors. Testing of fire doors include a maximum door "undercut" of 3/4 inch [NFPA 80 Standard for Fire Doors and Other Opening Protectives 2007 Edition, section 220.127.116.11] . Corridors have a fire rating of one hour or less, and the fire doors in them are required by code to have a fire rating of 1/2 or 1/3 hr, the intent of which is mainly to restrict smoke travel [NFPA 80 Standard for Fire Doors and Other Opening Protectives 2007 Edition, Annex D Fire Door and Fire Window Classifications, section D.5] .
Most fire doors should be kept closed at all times, however some are designed to stay open under normal circumstances, only to shut automatically or manually in the event of a fire. Whichever method is used, the door's movement should never be impaired by a
doorstopor other obstacle. Proper bounding of fire doors should be routinely checked and ensured.
Some fire doors are held open with an
electromagnetic coil, which may be wired to a fire alarmsystem via relays. If the power fails or the fire alarm is activated, the power to the coil is cut and the door closes on its own.
Rated fire doors are tested to withstand a fire for a specified period. There are 20, 30, 45, 60 and 90-minute-rated fire doors that are certified by an approved laboratory (e.g.
Underwriters Laboratories). The certification only applies if all parts of the installation are correctly specified and installed. For example, fitting the wrong kind of glazing may severely reduce the door's fire resistance period.
The building trade typically responsible for door installations is the
In building design drawings with poor identification of which walls do in fact have a fire-resistance rating, it is often necessary to check the door schedule in the
specifications to be able to trace what walls are rated and how long they are rated for. This is an indicative sign about the architectand the degree of care taken particularly with items relating to passive fire protection. To avoid confusion about any fire protection measures including fire doors, it is best for the architect to provide a separate set of drawings that clearly outlines which walls and floor have a fire-resistance rating and exactly what that rating is. It is also important to point out especially which walls are firewalls and which walls and/or floors are designated as occupancyseparations, as the nature of passive fire protection devices that must be used in those special cases can be substantially different from such devices that are used in ordinary fire separations.
Passive fire protection
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