Fire-retardant fabrics are textiles that are naturally more resistant to fire than others through chemical treatment or manufactured fireproof fibers.
Terminology and test limitations
The term fire-retardant as applied to organic (i.e., containing carbon) materials, is intended to refer to reduced fire hazard, as all will burn under certain circumstances. The tests used specified in building codes, such as NFPA 701, are more correctly flame resistance tests, which test a fabric's ability to resist ignition with the flame size and duration in the test conditions. The result is a comparative test, which provides a measure of the material's resistance to propagating combustion caused by small scale ignition sources. These tests do not predict the burning characteristics of full scale hazards. In many cases, if exposed to a sufficiently large and sustained exposure fire, the fire-retardant fabrics will burn vigorously. Polyester is inherently flame retardant, and therefore doesn't flare up when applied to various tests. Any amount of heat delivered within a long enough time interval will have no impact on the fabrics' integrity while a limited amount of heat delivered within short enough time interval may ignite or melt the fabric. A simple method for evaluating the threshold incident energy for ignition or melting of fabrics as a function of convective and radiant heat flux has been developed.
Inherently flame-retardant fabrics are certified in the United Kingdom by various British Standards. Fire-retardant fabrics sold in the UK for use as curtains must abide by BS 5867 Part 2 B & C, a British Standard. Other relevant UK standards include BS 5815-1 2005, BS 7175, Crib 5, IMO A563 and NFPA 701 and Chinese B1 GB20286-2006.
Fabric flammability is an important textile issue, especially for stage drapery that will be used in a public space such as a school, theatre or special event venue. In the United States, Federal regulations require that drapery fabrics used in such spaces be certified as flame or fire-retardant. For draperies and other fabrics used in public places, this is known as the NFPA 701 Test, which follows standards developed by the National Fire Protection Association (NFPA). Although all fabrics will burn, some are naturally more resistant to fire than others. Those that are more flammable can have their fire resistance drastically improved by treatment with fire-retardant chemicals.
Inherently flame-retardant fabrics such as polyester are commonly used for flame retardant curtain fabrics.
Fire-retardancy fabric treatment
Fire-retardant fabrics are normally treated to different British Standards; normally this depends on the end usage of the fabrics. BS 476 is a fire treatment for fabrics that are normally for wall hanging, and must only be used as for that purpose, where as CRIB 5 is a fabric fire treatment for upholstery and must only be used for furnishing and upholstery purposes, even if both fabrics have been treated for fire-retardancy. The relevant standards for fire-retardant fabrics include:
· BS 5852:2006 describes the best practice methods to assess the ignitability of single material combinations, such as covers and fillings used in upholstered seating, or complete items of seating. These tests determine the effects of a smouldering cigarette, or other flaming ignition sources such as burning matches or a four-sheet full-size newspaper. This standard can be used to establish the potential ignitability of components in conjunction with other specified materials. BS 5852:2006 first looks at the criteria of ignition, and the health and safety of operators. It then explains the various apparatus, before focussing on smouldering ignition sources – such as a cigarette, butane gas flames and flaming wooden cribs. It also looks at ways to test for the ignitability of upholstery composites and complete items of furniture. The standard concludes with a final examination and test report.BS 5852:2006 replaces the older certification standard, BS 5852 - 1990.
· BS 5867 is for flame retardant fabrics. It relates to curtains, blinds and drapes for windows when tested by the methods specified in BS 5438:1976. Where appropriate, a cleansing or wetting procedure specified in BS 5651 may also be required.
· Source 5 (Crib 5) is related to upholstery and furniture coverings, and is related to BS 5852. The crib test uses a plank made from wood that is glued together. The fabrics is attached over the lint, then at bottom and a propane-diol is added. The testing unit is then ignited with a match. To decide whether the test has been passed the fabric and the crib are assessed to see whether there is flaming or smoldering on both the outer cover and the interior material. Assuming it does not ignite or smolder, the material will pass the test as no ignition. Similar tests include Source 0 (smouldering cigarette) and Source 1 (simulated match).
· Class 0
· Class 1
· BS 476
The M1 standard is a European standard that is widely used in Europe only. Most UK fire officers are reluctant to accept MI certification, they prefer BS certificates.
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Durability and cleaning of fabric and drapes
When a fabric is designated as inherently fire-retardant, permanently fire-retardant, or durably fire-retardant, the flame retardancy will last for the life of the fabric as it has been woven into the fabric fiber itself. The drapery can be laundered or dry-cleaned as recommended by the drapery manufacturer. In the case of fabrics that are designated as fire-retardant, that have been topically treated with chemicals, the flame retardancy of the fabric will dissipate over time, particularly with repeated cleaning. As these chemicals are soluble in liquids-either water or dry cleaning fluid, these fabrics must be dry-cleaned with a non-liquid cleaning agent. The flame retardants work by coating the flammable fabrics with a mineral based barrier, preventing fire from reaching the fibres.
Typically, the flame retardancy of topically treated fabric is certified for one year, though the actual length of time in which the treatment remains effective will vary based on the number of times the drapery is dry-cleaned and the environmental conditions in the location in which the drapery is used. It is recommended that topically treated drapery be re-tested for fire-retardancy on an annual basis and re-treated by a qualified professional as needed.