Analysis and design of fire resistance cloth in fire works industries
Abstract
Fire resistance cloth is a textile with high tensile strength and high resistance to heat, flame, chemicals,
and weather that can be used in glass works foundries, chemical works, welding shops, plastic moulding
shops, etc. They are made of the materials like Acrylic, Polyester and Nylon. Fire-resistant fabrics can
resist ignition at high temperatures than natural fibers. The fabric is coated with fire retardant material
that stiffens the fabric. Or the fabric can be treated with chemicals. Fireproof for a cloth is possible by
making it less prone to catching and sustaining fire by using chemical mixtures by application of a ‘flame
retardant’. Fire Proof with respect to materials and parts used to confine fire in a designated fir zone,
means the capacity to withstand at least as well as steel in dimensions appropriate for the purpose for
which they are used, the heat produced when there is a severe fire of extended duration in that zone.
It respect to other materials and parts means the capacity to withstand the heat associated with fire at
least as well as steel in dimension appropriate for the purpose for which they are used. Fire Resistant with
respect to sheet or structure members means the capacity to withstand the heat associated with fire at
least as well as aluminium alloy in dimensions appropriate for the purpose for which they are used and
with respect to fluid- carrying lines, fluid system parts, wiring, air ducts, fittings and power plant controls
means the capacity to perform the intended functions under the heat and other condition likely to occur
when there is a fire at the place concerns. This report presents the results of a review aimed at identifying
test methods for protective clothing for first responders, as well as identifying areas in which further
research is required. It is intended to identify gaps and limitations in evaluation technology and to provide information on test methods research that can guide the development of new first responder protective ensembles.
Volume
33Collections
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