Abstract: Fire and heat protective flexible web, comprising a flexible material. The web comprises, in a cross section view from the heat exposed side: a selected first support layer (1) consisting of a steam permeable, solid and tear resistant textile, one or more fluid transporting layers (2) consisting of a liquid permeable and airy textile, a selected second support layer (1) consisting of a steam permeable, solid and tear resistant textile, and a conduit (6) mounted at least in the upper part of the fire projective web, for supply of fluid to the fluid conducting weblayer, and to disperse the fluid evenly in the longitudinal extent of the web, whereby the different layers are tightly connected surface-to-surface by means of seams, adhesives, point fixing or similar.

Abstract: A flame retardant cloth, used for example in interiors as a material for curtains, comprises (A) 60-40 parts by weight of fiber which contains 8-70 wt. % of halogen chemically bonded to a polymer and 1-8 wt. % of Sb compound not chemically bonded to a polymer, and has a shirnkage factor at 240.degree. C. of not less than 40% under a load of 300 mg/metric count yarn count (17), and (B) 60-40 parts by weight of polyester fiber, which compounded making a total of 100 parts by weight. This cloth can retain its high fire retardance even after it has been subjected to a process using a binder, such as pigment printing, and enables the range of application of a compound flame retadant fiber product comprising polyester fiber and halogen-containing fiber to be further widened.

Abstract: A catalytic converter has a ceramic catalytic support, a cylindrical casing for holding the catalytic support therein and a holding member disposed between the catalytic support and the casing. The holding member has a plurality of net-like layers, each of which is parallel to a circumferential surface of the catalytic support and has fibers randomly tangled with each other. Because of this structure, when the catalytic converter is assembled, damage to the fibers and separation of the fibers of the holding member can be prevented. As a result, the holding member can securely and steadily hold the catalytic support within the casing.

Abstract: Flexible, fire resistant, layered reflecting and photoluminous material is provided which combines the advantages of a light reflective component and a luminescent component in a fire resistant structure which meets National Fire Protection Association standards for inclusion in firefighter's protective clothing. The material includes a first layer of microspherical glass bead or prismatic light reflective plastic material having an underlying surface formed with a plurality of minute prism-like formations projecting therefrom at regular spaced intervals and an overlying substantially smooth light transmissive surface; a second layer containing a homogeneous blend of a resin containing effective amounts of fire retardant, photoluminescent and, optionally luminescent additives; and a third layer which is a fire retardant fabric. The layers are joined at a first region such that the prism-like formations are substantially disabled or destroyed.

Abstract: This invention relates to a fire barrier material comprising at least about 25 weight % binder; at least about 10 weight % intumescent compound; and at least about 5 weight % organic fibers comprising an organic material having pendant hydroxyl groups, wherein the density of the fire barrier material ranges from greater than zero to about 0.35 grams/cm.sup.3 as well as a method of making the fire barrier material.

Abstract: Fireproof panels, and methods for their construction are provided. The fireproof panels comprise at least one sheet including a layer of glass fibres impregnated with at least one fireproof resin free from solvent. The method for the construction includes the successive steps of distributing a fireproof resin in the form of a powder free from solvents on a layer of glass fibres, subjecting the latter to a first compression and heating step to soften the resin and, to a second compression and heating step to cross-link the resin and form the said panel. The panels find particular use in the production of partitions and furnishings.

Abstract: A flexible device with fire-barrier properties has a plurality of fibrous sheets and dry particles comprising molecules that are chemically and physically stable at room temperature and that generate an endothermic reaction upon raising the temperature. The sheets are joined together and the dry particles are inserted between the fibers of each sheet by needle-punching.

Abstract: An insulation blanket including an inner core air cell made of metal and having a first side for receiving a first composite and a second side for receiving a second composite. The first composite having a first inner layer formed of a metal foil sheet, a first middle layer formed of ceramic based sheets, and a first outer layer formed of an intumescent, fire-retardant coating on a fiber glass sheet; and the second composite having a second inner layer formed of a metal foil sheet, a second middle layer formed of ceramic based sheets, and a second outer layer formed of an intumescent, fire-retardant coating on a fiber glass sheet.

Abstract: The invention relates to a first gypsum-based composite article reinforced with glass fibers. This first article has a first member made of a hard gypsum, a second member made of a soft gypsum, and a mat made of the glass fibers. The mat is embedded in the article in a manner that the first and second members are bonded together by means of the mat. This first article is superior in resistance to external force acting thereon and to severe environmental conditions, even if the gypsum-based article is light in weight and thin in thickness. The invention further relates to a second gypsum-based composite article having a base plate, a glass fiber mat bonded to the base plate, and a gypsum layer formed on the glass fiber mat such that glass fibers of the glass fiber mat are embedded in the gypsum layer. This second article also has superior characteristics as those of the first article.

Abstract: Thermoplastic molding compositions compriseA) from 30 to 97% by weight of a polyester,B) from 1 to 30% by weight of melamine cyanurate,C) from 1 to 30% by weight of at least one phosphorus-containing flame retardant which contains phosphorus in the valence state -1, -2 or -3,D) from 0 to 60% by weight of other additives and processing aids,where the total of the percentages by weight of components A) to D) is 100%.

Abstract: A flame retardant, drapeable screen having long-time UV-stability useful for shading and energy saving, particularly for greenhouses, comprising flexible strips with a thickness less than 100 um, which form a continuous product by means of a crochet or weave process and a yarn system, where the strips comprising at least a part of the surface of the product, and where at least some of the strips comprise light and/or heat reflecting foil strips, e.g. a low emitting metal foil, preferably an AL-foil.

Abstract: A fire, heat and backdraft protection system is described for protecting firefighters in all types of fires. The protection system includes a composite laminate structure having a plurality of layers for the protection of firefighters who are exposed to high temperatures of 2200.degree. F. for 30 minutes in duration. The plurality of layers includes an outer first layer, an inner second layer and an inner third layer. The outer first layer is a fiberglass textile having an intumescent coating resistant to heat, water and impact. The inner second layer is a metal foil layer for reflecting heat and eliminates the convection transfer of heat. The inner third layer is a low conductivity refractory blanket for reducing the transmission of heat. The inner fourth layer is a metal foil layer for reflecting heat and eliminates the convection transfer of heat.

Abstract: A fire suppressant composition is provided which exhibits a low pressure and low flame temperature. The composition comprises ammonium nitrate and a guanidine salt or derivative which produces greater than 3 moles of inert gas per 100 grams of composition and alkali metal or alkaline earth salts for flame suppression. The composition may also include iron or iron oxide.

Abstract: A fluorocarbon resin sheet having a fluorine content of at least 55% and a melting point of from 60 to 220.degree. C., made solely of a polymer comprising at least one fluorine-containing monomer, or made of a blend of such a polymer with other polymer, which has a total light transmittance of at least 80% and a tensile modulus of elasticity within a range of from 1.times.10.sup.7 to 4.times.10.sup.9 Pa within an entire measuring temperature range of from 0 to 30.degree. C., wherein the surface of the resin sheet is embossed to have a center line average roughness Ra of from 0.05 to 2.0 .mu.m and a number of peaks Pc of from 5 to 500 peaks/8 mm.

Abstract: Fire retarding and smoke inhibiting aqueous composition and a method for a one-step impregnation of aqueous-absorbable--and normally inflammable materials, such as wood, paper and textiles, said composition comprising ammoniumphosphates, phosphoric acid, water soluble metal salts with ability to form water insoluble salts with phosphate ions and/or ammoniumphosphate ions, and other optional additives.The composition comprises in combination:0.5-90% by weight monoammoniumphosphate and/or diammoniumphosphate,0.1-30% water-soluble metal salts with ability to form water insoluble salts with phosphate ions and/or ammoniumphosphate ions,1-20% by weight acid especially phosphoric acid (85%),1-15 % by weight dicyandiamide, andoptionally up to 5% by weight additivesin a total concentration of from 1 to 50% by weight with respect to the total weight of the aqueous solution, whereby phosphoric acid and dicyandiamide are present in the form of the reaction product guanylureaphosphate.

Abstract: A wear-resistant and flame-retardant resin composition formed by kneading components (a) through (e) at a proportion in a specific range, wherein:the component (a) is a copolymer of ethylene and .alpha.-olefin having a melt index in a range of 0.1-5 g/10 min., containing comonomers in a range of 10-30 wt %, and containing one or more oxygen atoms in the molecule,the component (b) is linear chain polyethylene of low density having a melt index in a range of 0.1-5 g/10 min., a density in a range of 0.920-0.945, and a durometer hardness of 50-65,the component (c) is polyolefin having a durometer hardness of not less than 60,the component (d) is unsaturated carboxylic acid or polyolefin modified by a derivative thereof, andthe component (e) is a metal hydroxide.

Abstract: Disclosed is a high voltage electric appliance comprising electric coils whose conductors are wrapped by an insulating tape with subsequent impregnation of thermosetting resin for the electrical insulation. The insulating tape is a laminated body consisting of a built-up mica of fine mica particles and synthetic pulp or a paraffin powder and a reinforcing member. The bonding among the fine mica particles and between the fine mica particles and the reinforcing material is effected by the synthetic pulp as melted and solidified.

Abstract: A wood board 1, wherein irregularities 6 of the surface of an oriented strand board 2 in a laminated wood board 5, in which an oriented strand board 2 is laminated on a strand board 3, are filled with a putty 7, and smoothed. A surface-decorated wood board 10, in which a surface-decorative material 12 is applied to a smoothed surface of this wood board 1. Despite the fact that an oriented strand board 2 having large surface irregularities is employed as the surface layer, it is possible to obtain a wood board 1 which has a smooth surface, in which the wooden strand pattern is reduced, and which has superior water and moisture resistance.

Abstract: A fireproofing material is provided in the form of a loose mixture comprising:a. at least one heat-insulating material which is heat resistant at temperatures of up to 1100.degree. C.,b. at least one swelling agent active at elevated temperatures,c. at least one binder active at elevated temperatures, andd. at least one flexibly compliant constituent,wherein the mixture is free from inorganic fibers. The mixture is typically contained in a sealed flexible bag. The flexibly compliant constituent is typically a granular foam or a fiber conglomerate. The flexibly compliant constituent is present in the mixture in quantities of 1 to 30% by weight and preferably 2 to 15% by weight.

Abstract: A fire resistant liquid and a process for the preparation thereof characterized in reacting granulated potassium hydroxide, powdered sodium carbonate, lumps of metallic silicon and water.A fireproof building material molded by applying a viscous liquid of the fire resistant liquid mixed with bentonite and fibers on one side or both sides of wood-, paper-, metal- and composite boards, and a fireproof building material molded by laminating an incombustible cotton plate to a base plate through a compounding mixture of the fire resistant liquid with bentonite and Chinese cotton. A fire resistant adhesive prepared by mixing the fire resistant liquid with bentonite, Chinese cotton and BENGEL 31.

Abstract: The heat-resisting material according to the present invention comprises a fiber aggregate containing crystalline alumina short fibers and formed in a continuous length and an inflammable sheathing for maintaining the shape of the fiber aggregate in a compressed state. The expansion percentage of the fiber aggregate after burn-off of the sheathing is not less than 10% by volume based on the volume of fiber aggregate in a compressed state. This heat-resisting material can be worked into various forms of product of the heat-resisting material such as rope, square bar, sheet, etc., according to the purpose of use. The present heat-resisting material is provided in continuously long products, has high heat resistance and restoring property, and can be easily applied to the openings or spaces ranged continuously in the longitudinal direction, such as the boundaries between the blocks of the heat-resisting material and joints.

Abstract: Rear-ventilated cladding is provided with intumescent compositions in the region of the rear ventilation.

Abstract: A glass fiber capable of withstanding temperatures in excess of 1900.degree. F. is produced by treating a glass, preferably E-glass, fiber. The glass fiber is first leached with selected acids, and then the leached fiber is treated with organo-metallic materials of low viscosity, such as a dispersion of low molecular weight water-in-oil emulsion of dimethyl polysiloxane. The fiber is used in such applications as embedding it in a fire-resistant active coating material or embedding it into one surface of a polyolefin or composite plastic, such as a polypropylene sheet. The treated fiberglass can be used as a sole component or in concert with a fire-resistant or fire retardant material to further enhance its fire-resistant properties.

Abstract: A plastic film of a polyolefin, particularly polypropylene copolymer has a flame-retardant coating, is siliconized on at least one side and is coated at least to some extent with adhesive in non-siliconized areas, with an intermediate layer formed as a flame-retardant lacquer located between the polyolefin substrate material and the siliconized layer, to be especially suitable for use as a moisture barrier for inner paneling in motor vehicles.

Abstract: A method and a mixture for preparing an ablative material for fire and heat protection is provided. The mixture includes calcium sulfate hemihydrate and a hydrated salt and the ablative material is prepared by adding water to the mixture.

Abstract: A light weight composite layer arrangement for providing protection for a metal surface from a fire for a predetermined period of time in compliance with Federal Airworthiness Regulation 25. The arrangement which may be easily installed on a metal surface, which typically is an aluminum alloy, includes a silicone rubber sealant layer that is applied to the metal surface in an uncured non-flowing state. A layer of ceramic fiber fabric is then applied to the first silicone rubber sealant layer and due to its inherent flexibility easily conforms to the contours of the underlying metal surface. A second silicone rubber sealant layer may then be applied in its uncured non-flowing state over the ceramic fiber layer to essentially embed the ceramic fabric layer between the two silicone rubber layers. The silicone rubber sealant layers may then be cured at room temperature.

Abstract: A polymer matrix composite comprises a matrix of a cured methylsilsesquioxane resin and a reinforcing material. The composite has low heat release rate, smoke yield, and carbon monoxide yield when burned. After burning, the composite has high char yield and retains much of its initial tensile strength. The method for making the composite comprises applying a silanol-functional methylsilsesquioxane resin comprising 70 to 90 mol % ((CH.sub.3)SiO.sub.3/2) units and 10 to 25 mol % (CH.sub.3 Si(OH)0.sub.2/2) units to a reinforcing material and curing the resin.

Abstract: A structural article comprises a substrate having an ionic charge which is coated with a coating having essentially the same ionic charge. The coating consists essentially of a filler material and a binder material. The substrate is preferably fiberglass, the filler is selected from the group consisting of fly ash, charged calcium carbonate, ceramic microspheres and mixtures thereof and the binder material is preferably acrylic latex. The substrate is preferably bonded together using a mixture of urea formaldehyde and standard acrylic. In a preferred embodiment, the coating comprises nearly 85% of the structural article and a filler which is approximately 50% fly ash and 50% calcium carbonate comprises approximately 85% to 95% of the coating.

Abstract: The present invention relates to a flame retardant hot melt composition comprising from about 20% to about 60% by weight of the adhesive of at least one copolymer of ethylene, from about 10% to about 50% by weight of the adhesive of a flame retarding hydrated inorganic compound, from about 10% to about 30% by weight of at least one high melting point wax and from about 1% to about 10% by weight of at least one tackifying resin.

Abstract: Disclosed in a halogen-free flame-retardant epoxy resin composition, comprising (A) a bisphenol A type epoxy resin, (B) a novolak type epoxy resin, (C) a phenolic resin type curing agent, (D) a curing accelerator, and (E) an inorganic filler. The phenolic resin type curing agent (C) is provided by a nitrogen-containing phenolic resin, preferably, by a co-condensation resin formed by the reaction among a phenolic compound, a guanamine compound, and an aldehyde compound. More desirably, a phenolic resin containing both phosphorus and nitrogen should be used as the curing agent (C). Further, a combination of the co-condensation resin noted above (C-1) and a reactive phosphoric acid ester can be used as a curing agent.

Abstract: Fiberboards are provided containing at least about 65 wt. % calcium sulfate dihydrate derived from hemihydrate or anhydrous gypsum, and at least about 7 wt. % pulped paper fibers. The boards are capable of being formed into structural members having superior mechanical properties and/or fire resistance, including screw-holding capacities in excess of 650 lbs.

Abstract: Fire-resistant structures are provided having at least a 20 minute ASTM E-152 fire test rating. The structures include glass partition walls having framing members formed from a gypsum-containing composition having a density of at least about 60 lbs/ft.sup.3, a flexural strength of at least 30 lbs (1/2 inch thick material), and a screw-holding capacity of at least about 400 lbs. The gypsum-containing composition further contains a substantially uniform distribution of solids including about 65 wt. % to about 90 wt. % set gypsum dihydrate, about 7 wt. % to about 30 wt. % paper fiber, and about 1.5 wt. % to about 35 wt. % of one or more performance boosters selected from inorganic fiber, clay, vermiculite, and binder polymer.

Abstract: A high-security fabric for use in high-security applications comprising an inner layer of nylon having top and bottom surfaces, two inner layers of polyester, one of the inner layers of polyester extending on the top surface of the inner layer of nylon, the other inner layer of polyester extending on the bottom surface of the inner layer of nylon, and two outer layers of a fireproof synthetic fabric, each outer layer of fireproof synthetic fabric extending on one of the inner layers of polyester opposite to the inner layer of nylon. All of the layers form a 5-ply assembly having a top and a bottom and in which the inner layer of nylon is centrally positioned. The assembly is stitched together with a nylon thread in a pattern.

Abstract: An intumescent coating system and method therefor is disclosed for thermally protecting a substrate having a surface exposed to fire conditions. The coating system of the present invention is provided as having a first component which forms a rigid carbonific char foam having toughness and rigidity, and a second component which forms an insulative carbonific char foam having a density about half the density of the rigid carbonific foam to give insulation properties. The two foam components may be separately provided in a laminate-type arrangement as, respectively, an inner coating layer coated and cured on the surface of the substrate to form an inner film layer, and an outer coating layer coated and cured on the inner film layer to form an outer film layer. Alternatively, the two foams may be provided as being formed from components blended to comprise a single coating layer which is coated and cured on the surface of the substrate to form a film layer.

Abstract: Phthalonitrile thermoset polymers and composites having flame resistance formed by combining a phthalonitrile monomer in the melt stage with a halogen-containing aromatic amine curing agent. The halogen-containing aromatic amine curing agent is selected from the group consisting of aromatic amine curing agents having the general formula:NH.sub.2 --(Ar.sup.2 O--).sub.y Ar.sup.1 --X--Ar.sup.1 (--OAr.sup.2).sub.y --NH.sub.2wherein Ar.sup.1 and Ar.sup.2 are substituted or unsubstituted aromatic groups, y is 0 or greater, and X is --C(CF.sub.3).sub.2 -- and aromatic amine curing agents having the general formula:NH.sub.2 --(Ar.sup.4 O--).sub.u Ar.sup.3 --Z--Ar.sup.3 (--OAr.sup.4).sub.u --NH.sub.2wherein Z is a connecting bond or a linking group other than oxygen or --C(CF.sub.3).sub.2 --, u is 0 or greater, and Ar.sup.3 and Ar.sup.4 are aromatic groups and wherein either Ar.sup.3 or Ar.sup.1 or both Ar.sup.3 and Ar.sup.4 are substituted with at least one halogen atom or halo-substituted alkyl group.

Abstract: A fire-retardant thermoplastic film having a water-based pressure-sensitive adhesive. Liquid thermoplastic resin is mixed with a fire-retardant material, then subjected to a blow molding process to form a film. An adhesive is then applied to one side of the film. The film is used for protecting various surfaces in the maritime industry during construction.

Abstract: Salts of phosphonous acids are useful as flame retardants in plastics. Preferred salts are calcium or aluminum salts of phenylphosphonous acid and of methanephosphonous acid. Plastic molding materials rendered flame-retardant in this way are useful for manufacturing molded parts, especially electrical components, mechanical components, plugs, mounts, housings, coverings, sheathings and overcoatings.

Abstract: A fire-resistant retroreflective structure having an array of rigid retroreflective elements and a method for making the structure are disclosed. The retroreflective structure is formed of an array of rigid retroreflective elements having a first side and a second side. A transparent polymeric film is attached to the first side of the array of rigid retroreflective elements. A transparent fire-resistant outerlayer is attached to the transparent polymeric film. A flame-retardant layer is placed proximate to the second side of the array of rigid retroreflective elements. A fire-resistant polymer underlayer is attached to the flame-retardant layer. The five resistant polymer underlayer can be bonded to the transparent polymeric film through the array of rigid retroreflective elements and the flame-retardant layer.

Abstract: A firestop sleeve suitable for both concrete floor and gypsum wall-board assembly including a layer of intumescent composite forming a moldable putty with a restraining layer, for wrapping around a pipe extending through the concrete floor or through the wall-board, along with a plurality of bendable tabs for depression into the wrapped layer to hold the restraining layer in position during installation.

Abstract: Fire-resistant glass, produced by placing between two panes of glass a gel former containing a) an acid aluminum phosphate, b) a reaction product of boric acid with an alkanolamine and one or more alkali metal compounds, and heating the glass to convert the gel former to a gel.

Abstract: A highly fire resistant construction board is produced by embedding a sheet of expanded metal net in a building board made from a water settable inorganic binder. In a preferred embodiment, the wallboard is made from a combination of gypsum, cement, and a particulate mineral filler such as perlite or vermiculite, and contains an embedded layer of expanded metal net made from a magnesium alloy.

Abstract: There is dsiclosed a flame retardant resin composition comprising the following components (A), (B), (C), (D), (E) and (F), wherein 1-10 parts by weight of (C), 2-10 parts by weight of (D), 0.05-2 parts by weight of (E) and 0.01-10 parts by weight of (F) are contained per 100 parts by weight of a resin whose weight ratio of (A)/(B) is 75/25-90/10.(A) a polycarbonate resin whose viscosity-average molecular weight is 16,000-29,000,(B) a polyalkylene terephthalate resin,(C) a copolymer containing a rubbery polymer and at least one selected from the group consisting of aromatic vinyl monomers, vinyl cyanide monomers, acrylic acid, acrylic esters, methacrylic acid, methacrylic esters and maleimide-type monomers as components,(D) an organic phosphorus-type flame retardant,(E) a fluorocarbon-type resin, and(F) an epoxy compound not containing halogens.

Abstract: A pressure compensating padding device comprising a flexible envelope and a deformable composition within said envelope, wherein said composition deforms in response to continuously applied pressure; but tends to maintain its shape and position in the absence of applied pressure; said composition comprising a fluid formed from a mixture of an oil and a thickener, wherein said composition maintains its fluid characteristic.

Abstract: The present invention provides a strontium borate pigment composition comprising particles of a strontium borate represented by the general formula (1):.alpha.SrO..beta.B.sub.2 O.sub.3..gamma.H.sub.2 O (1)(wherein O<.alpha..ltoreq.3, O<.beta..ltoreq.4, O.ltoreq..gamma..ltoreq.5), the particles being coated with at least one compound selected from the group consisting of compounds represented by the formulae (2) to (6):.delta.SrO..epsilon.SiO.sub.2..zeta.H.sub.2 O (2)(wherein O<.delta..ltoreq.3, O<.epsilon..ltoreq.2, O.ltoreq..zeta..ltoreq.4 ).eta.SrO..theta.Al.sub.2 O.sub.3..iota.H.sub.2 O (3)(wherein O<.eta..ltoreq.5, O<.theta..ltoreq.16, O.ltoreq..iota..ltoreq.6)SrSO.sub.4 (4)SrCO.sub.3 (5)andSrHPO.sub.4 (6),the pigment composition having an average particle diameter of 0.1 .mu.m to 5 .mu.

Abstract: Flame retardant compositions such as polyurethane foams are produced by incorporating an amino condensation composition. The amino condensation compositions are produced by heating urea or heating urea with other nitrogen containing compounds that will condensate with or react with isocyanic acid and/or cyanic acid or heating urea first then reacting the condensation compounds with other nitrogen containing compounds. The amino condensation compounds may be mixed with or reacted with carbonization auxiliaries, aldehydes and fillers to produce an amino condensation composition which is incorporated in more flammable organic compositions such as polyurethanes, polyester resins, epoxy resins, vinyl resins and other resins. The amino condensation salts of phosphorus, boron or sulfur containing compounds and the amino condensation-aldehyde resins may also be used as the flame retardant compound in this invention.

Abstract: A pressure-sensitive adhesive composition comprises an adhesive selected from the group consisting of rubber resin adhesives and acrylic adhesives containing from about 10 to about 60% by weight of the adhesive of a non-halogen intumescent flame retardant.

Abstract: A roofing product is described which includes a substantially rigid foam core backed with a moisture resistant coating, a mineral aggregate layer overlying said foam core, a membrane layer thereon, a plurality of glass fibers embedded within said membrane layer or present as a separate layer between said aggregate and membrane layers, and a topcoat polymer shell on said membrane layer and overlying the edges of the product.

Abstract: A fire protection material is provided for protecting electrical cables and components. The material comprises an endothermic-reactive insulating fibrous material including an inorganic endothermic filler which undergoes multiple endothermic reactions between the range 100.degree. C. and 750.degree. C.; inorganic fiber material; and an organic polymer binder. The weight ratio of endothermic filler to inorganic fiber is preferably in the range of 0.25 to 3.0. The fire protection material is in the form of semi-rigid or rigid board or may be moulded into sections.

Abstract: A flexible fire barrier felt is provided that includes an organic polymeric binder; a phosphorus-containing compound; organic fibers with pendant hydroxyl groups; and a heat absorbing compound.

Abstract: Conventional paints transmit or absorb most of the intense infrared (IR) radiation emitted by fire, causing them to contribute to the spread of fire. The present invention comprises a fire retardant paint additive that reflects the thermal IR radiation emitted by fire in the 1 to 20 micrometer (.mu.m) wavelength range. The important spectral ranges for fire control are typically about 1 to about 8 .mu.m or, for cool smoky fires, about 2 .mu.m to about 16 .mu.m. The improved inventive coatings reflect adverse electromagnetic energy and slow the spread of fire. Specific IR reflective pigments include titanium dioxide (rutile) and red iron oxide pigments with diameters of about 1 .mu.m to about 2 .mu.m and thin leafing aluminum flake pigments.