US20050177950A1 - Flame barrier cushioning foams and upholstery layer construction incorporating such foams - Google Patents

Flame barrier cushioning foams and upholstery layer construction incorporating such foams Download PDF

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Publication number
US20050177950A1
US20050177950A1 US10/780,545 US78054504A US2005177950A1 US 20050177950 A1 US20050177950 A1 US 20050177950A1 US 78054504 A US78054504 A US 78054504A US 2005177950 A1 US2005177950 A1 US 2005177950A1
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United States
Prior art keywords
foam sheet
flame barrier
flame
upholstery construction
coating
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US10/780,545
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Beat Niederoest
William Deery
Chiu Chan
Daniel Tursi
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FXI Inc
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Foamex LP
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Priority to US10/780,545 priority Critical patent/US20050177950A1/en
Priority to CA002459674A priority patent/CA2459674A1/en
Priority to MXPA04002270A priority patent/MXPA04002270A/en
Assigned to FOAMEX L.P. reassignment FOAMEX L.P. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: CHAN, CHIU Y., DERRY, WILLIAM H., NIEDEROEST, BEAT B., TURSI, JR., DANIEL V.
Assigned to FOAMEX L.P. reassignment FOAMEX L.P. CORRECTIVE ASSIGNMENT TO CORRECT ASSIGNOR NAME, PREVIOUSLY RECORDED AT REEL/FRAME 014635/0204 (ASSIGNMENT OF ASSIGNOR'S INTEREST) Assignors: CHAN, CHIU Y., DEERY, WILLIAM H., NIEDEROEST, BEAT B., TURSI, JR. DANIEL V.
Publication of US20050177950A1 publication Critical patent/US20050177950A1/en
Assigned to MP FOAM DIP LLC reassignment MP FOAM DIP LLC ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: FOAMEX INTERNATIONAL INC., FOAMEX L.P.
Assigned to FOAMEX INNOVATIONS OPERATING COMPANY reassignment FOAMEX INNOVATIONS OPERATING COMPANY ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: FOAMEX INNOVATIONS, INC. (FORMERLY MP FOAM DIP LLC)
Assigned to FXI, INC. reassignment FXI, INC. RELEASE BY SECURED PARTY (SEE DOCUMENT FOR DETAILS). Assignors: WELLS FARGO BANK, NATIONAL ASSOCIATION, SUCCESSOR BY MERGER TO WACHOVIA BANK, NATIONAL ASSOCIATION, AS AGENT
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    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J9/00Working-up of macromolecular substances to porous or cellular articles or materials; After-treatment thereof
    • C08J9/36After-treatment
    • C08J9/40Impregnation
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47CCHAIRS; SOFAS; BEDS
    • A47C27/00Spring, stuffed or fluid mattresses or cushions specially adapted for chairs, beds or sofas
    • A47C27/14Spring, stuffed or fluid mattresses or cushions specially adapted for chairs, beds or sofas with foamed material inlays
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47CCHAIRS; SOFAS; BEDS
    • A47C31/00Details or accessories for chairs, beds, or the like, not provided for in other groups of this subclass, e.g. upholstery fasteners, mattress protectors, stretching devices for mattress nets
    • A47C31/001Fireproof means
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J9/00Working-up of macromolecular substances to porous or cellular articles or materials; After-treatment thereof
    • C08J9/36After-treatment
    • C08J9/365Coating
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2375/00Characterised by the use of polyureas or polyurethanes; Derivatives of such polymers
    • C08J2375/04Polyurethanes
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2421/00Characterised by the use of unspecified rubbers
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2427/00Characterised by the use of homopolymers or copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by a halogen; Derivatives of such polymers
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2431/00Characterised by the use of copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by an acyloxy radical of a saturated carboxylic acid, or carbonic acid, or of a haloformic acid
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08JWORKING-UP; GENERAL PROCESSES OF COMPOUNDING; AFTER-TREATMENT NOT COVERED BY SUBCLASSES C08B, C08C, C08F, C08G or C08H
    • C08J2475/00Characterised by the use of polyureas or polyurethanes; Derivatives of such polymers

Definitions

  • This invention relates to flexible polyurethane foams forming at least a portion of an upholstery layer in a bedding or a furniture construction, wherein said foams have a lower density and a desired indentation force deflection, and form a flame barrier to shield more combustible materials in the bedding or furniture construction from ignition by flame.
  • Polyurethane foams with varying density and hardness may be formed. Hardness is typically measured as IFD (“indentation force deflection”) or CFD (“compression force deflection”). Specifically, IFD 25 is the force required to compress the foam to 25% of its original thickness or height. Tensile strength, tear strength, compression set, air permeability, fatigue resistance, support factor, and cell size distribution may also be varied, as can many other foam properties. Specific foam characteristics depend upon the selection of the starting materials, the foaming process and conditions, and sometimes on the subsequent processing.
  • Cellular polyurethane structures typically are prepared by generating a gas during polymerization of a liquid reaction mixture comprised of a polyester or polyether polyol, an isocyanate, a surfactant, catalyst and one or more blowing agents.
  • the gas causes foaming of the reaction mixture to form the cellular structure.
  • the surfactant stabilizes the structure.
  • Untreated cellular polyurethane structures tend to have relatively high flammability, and open flame ignition continues to be a concern where polyurethane foams are incorporated into bedding and furniture.
  • Many mattresses and upholstered furniture articles must meet stringent flammability standards, such as the California Technical Bulletin 603 developed by the California Bureau of Home Furnishings for mattresses.
  • a mattress Under the California TB603 standard, a mattress must not reach a heat release rate in excess of 200 kW in the first one-half hour after ignition using a specified energy source. The mattress also cannot exceed a total heat release of 10 MJ in the first ten minutes.
  • extremely flame resistant materials should be incorporated into the outer layers of the mattress construction in order to satisfy the California TB603 standard.
  • Some polyurethane foams are made more resistant to flame ignition by incorporating flame retardants in situ into the foam-forming composition. Often, when flame retardants are incorporated in situ, particulate matter is incorporated into the foam structure. Foams formed with flame retardants in situ tend to have less desirable cushioning properties than foams without such additives. It is also more difficult to load large amounts of flame retardant into foams in situ to further increase flame retardance, and larger flame retardant loadings further detract from foam cushioning properties.
  • Mattress constructions and furniture upholstery constructions have obtained higher flame resistance by incorporating a fabric or a fiber flame barrier between the upholstery fabric and the cushioning materials (fiber fill or foam) and support structure (springs or foam cushions) within the constructions.
  • the treated fabric or fiber flame barrier provides the needed flame retardance, but has little or no cushioning effect. Hence, either the comfort of the construction is reduced or additional foam or other cushioning material is incorporated into the construction in conjunction with the fabric or fiber flame barrier to restore the original cushioning of the construction. Better cushioning or lower cost mattress or furniture constructions would be produced if such a fabric or fiber flame barrier could be eliminated.
  • an upholstery construction for a mattress or an article of furniture includes a fabric layer having a front surface and a back surface and a flame barrier foam sheet proximate to the back surface of the fabric layer.
  • the flame barrier foam sheet comprises a polyurethane foam sheet that is coated or impregnated with a coating of one or more binders and one or more flame retardants, and dried. After it has been coated or impregnated and dried, the flame barrier foam sheet has a density of in the range of about 1.0 to 6.0 pcf and an compression force deflection (CFD 25 ) of in the range of about 0.1 to 0.4 psi.
  • the flame barrier foam sheet is adjacent to the back surface of the fabric layer.
  • the upholstery construction is quilted such as by stitching together the flame barrier foam sheet and fabric layer in combination with one or more other layers.
  • the one or more other layers may include a second foam sheet and a nonwoven backing sheet. If included, the second foam sheet preferably is installed adjacent to the flame barrier foam sheet, such as between the flame barrier foam sheet and the backing sheet.
  • the coating preferably is a liquid or an aqueous solution that includes a liquid binder in combination with one or more fire retardants, which may be solid or liquid or a combination thereof.
  • the binder in the coating has a glass transition temperature (Tg) of less than about 10° C., most preferably less than about 0° C.
  • Tg glass transition temperature
  • the binder in the coating may be selected from materials generally characterized as latexes, such as those based on natural rubber, polyvinyl chloride, ethylene vinyl chloride copolymer, vinyl acetate, vinylidene chloride copolymer and vinyl acetate copolymer chemistry.
  • binders may also be used, such as those based on acrylonitrile, epoxy, polychloroprene and polyurethane. Any mixture of the identified binders may also be used. Most preferably, the binder in the coating has a chlorine content of at least about 20% on a dry weight basis.
  • the solid flame retardant in the coating preferably is selected from the group consisting of: melamine, a melamine derivative, aluminum trihydrate, polyvinyl chloride, antimony oxide, expandable graphite, magnesium hydroxide, urea, an amino phosphorous compound such as ammonium polyphosphate, and mixtures thereof.
  • a liquid flame retardant may also be included in the coating.
  • the flame barrier foam sheet prior to being coated or impregnated has a density of less than about 1.5 pcf and an indentation force deflection (IFD 25 ) of about 15 lb-force or less.
  • the coated or impregnated flame barrier foam sheet preferably has a density of from about 2.0 to about 4.5 pcf.
  • a mattress or an article of upholstered furniture incorporates the upholstery construction.
  • the upholstery construction preferably is quilted when incorporated into a mattress.
  • the flame barrier foam may be first wrapped over a cushion and then installed proximate to the fabric layer when incorporated into an article of furniture.
  • FIG. 1 is a schematic drawing of an apparatus to coat or impregnate a foam sheet with an aqueous solution containing one or more flame retardant compounds carried by a binder;
  • FIG. 2 is schematic cross-sectional view in side elevation of an upholstery construction for a mattress or an article of furniture according to the invention
  • FIG. 3 is a schematic cross-sectional view in end elevation of a mattress incorporating the upholstery construction of FIG. 2 ;
  • FIG. 4 is a schematic side elevational view of a test configuration for testing the flame retardancy of a flame barrier according to the invention.
  • a polyurethane foam sheet 10 is provided.
  • the polyurethane foam sheet 10 has a thickness in the range of 0.25 to 0.5 inches.
  • Other cushioning foams besides polyurethane foam, and other foam thicknesses, may be used.
  • the polyurethane foam forming the foam sheet 10 preferably has a density of less than about 1.5 pounds per cubic foot (pcf), and an IFD 25 of about 15 or less, more preferably about 12 or less.
  • pcf pounds per cubic foot
  • IFD 25 an IFD 25 of about 15 or less, more preferably about 12 or less.
  • foam sheets with different IFD 25 values outside these preferred values may be used.
  • IFD or “indentation force deflection” is determined in accord with a procedure similar to ASTM D 3574. In this case, for IFD 25 a foam sample is compressed by 25% of its original height and the force after one minute is reported. Foam samples should be cut to a size 15′′ ⁇ 15′′ ⁇ 4′′ prior to testing.
  • the polyurethane foam sheet 10 is passed over a roller 12 and into a dip pan 14 that contains a coating liquid 16 .
  • the foam sheet 10 picks up a quantity of the coating 16 and is then passed between a set of nip rollers 18 .
  • the amount of impregnation or coating pick up can be adjusted by varying the gap between the nip rollers 18 and/or adjusting their speed of rotation.
  • a portion of the coating liquid 16 is squeezed out of the foam sheet 10 by the nipping action of the nip rollers 18 and returns to the dip pan 14 .
  • From the nip rollers 18 the impregnated foam sheet 10 is passed through one or a series of drying ovens 20 .
  • the drying oven 20 may be a radiant heating oven, a convective heating oven or a series of conductive heating elements, or it may be any combination thereof.
  • the coating is dried or cured in the drying oven 20 before the impregnated foam sheet that may form a flame barrier foam sheet 24 is wound over a take up roller 22 .
  • the coating liquid 16 may include an aqueous or solvent based binder selected from the group generally characterized as latexes, such as those based on acrylic, natural rubber, polyvinyl chloride, ethylene vinyl chloride copolymers, vinyl acetate, vinylidene chloride copolymers, and vinyl acetate ethylene copolymers.
  • binders suitable for use with polyurethane foam may also be used, such as those based on acrylonitrile, epoxy, polychloroprene and polyurethane.
  • a combination of one or more such binders may be included in the coating liquid.
  • the binder forming the coating liquid has a glass transition temperature (Tg) of less than 10° C., most preferably, less than 0° C.
  • the binder has a chlorine content of at least about 20% on a dry weight basis.
  • the binder may be filled with one or more liquid or solid flame retardant materials to form the coating liquid.
  • the solid flame retardants are selected from the group consisting of polyvinyl chloride, melamine, melamine derivatives, aluminum trihydrate, antimony oxide, expandable graphite, magnesium hydroxide, urea, or an amino phosphorous compound, such as ammonium polyphosphate.
  • the liquid flame retardants are selected from the group consisting of brominated and chlorinated organic compounds, such as commercially available tetrabromobenzoate esters or chlorinated diphosphate esters. When incorporated, the liquid fire retardant level typically is expected to be less than 25% of the solid fire retardant level.
  • the solids level for the impregnating or coating formulations that remain on the polyurethane foam sheet to form the flame barrier foam sheet may be set forth as the percentage of the coating that remains with the foam after drying or curing.
  • the solids level represents the percentage of the formulation that is not volatile or aqueous.
  • the solids level may be adjusted, for example, to change the viscosity of the coating liquid or to minimize the amount of drying time required. This solids level adjustment is typically achieved by adjusting the amount of water added to the coating formulation.
  • a typical solids level for the coating or impregnating formulations is between 40 and 60%.
  • the binder load factor may be set forth as the ratio of total dry weight of the coating/impregnation material to the total dry weight of the binder.
  • the binder load factor affects the adhesion of the coating to the polyurethane foam sheet.
  • a typical load factor for the coating or impregnating formulations is in the range of 3 to 12.
  • an upholstery construction 26 is formed by layering the elements that form the construction.
  • the embodiment shown in FIG. 2 is a quilted upholstery construction 26 suitable for a mattress.
  • a similar upholstery construction (although usually not quilted) may be used in an article of upholstered furniture.
  • a fabric layer 28 forms the outer covering of the mattress.
  • One exemplary fabric layer 28 for a mattress is a knit or woven stretch fabric comprising a blend of cotton and polyester, such as 75% cotton and 25% polyester.
  • the flame barrier foam sheet 24 is positioned adjacent to the fabric layer 28 .
  • a second foam layer 29 is positioned adjacent to the flame barrier foam sheet 24 .
  • a nonwoven backing 30 is positioned adjacent to the second foam layer 29 .
  • the upholstery construction 26 is shown with both a flame barrier foam sheet 24 and a second foam layer 29 ; however, it is also possible to form the construction without such second foam layer 29 .
  • the layers forming the bedding upholstery construction 26 preferably are joined together, such as by sewing.
  • the flame barrier foam sheet 24 would wrap a cushion core, and the flame barrier foam sheet and cushion core would be encased in the upholstery fabric layer 28 .
  • a second foam sheet 29 and a nonwoven backing 30 would not normally be used.
  • the upholstery fabric would be sewn together to enclose the flame barrier foam sheet and cushion core to form an upholstered furniture cushion.
  • a mattress 34 is formed with the upholstery construction 26 of FIG. 2 .
  • Sections of the upholstery construction 26 form the outer top and bottom surfaces of the mattress 34 .
  • a flame barrier foam sheet 24 in combination with an outer fabric 28 and a nonwoven backing 30 form the outer side surfaces of the mattress 34 .
  • the innerspring unit 36 or other support structure is thus encased within the flame barrier foam sheets forming the upholstery construction 26 at the top and bottom, and the flame barrier foam sheet(s) along the sides of the mattress.
  • the flame barrier foam sheets thus shield the support structure of the mattress from ignition sources that could cause the support structure to ignite.
  • the mattress support structure is a slab of polyurethane cushioning foam.
  • Other support structures, such as encased innersprings, or innersprings in combination with cushioning foams or other cushioning materials may be formed.
  • the flame barrier foam sheet according to the invention resists yellowing from exposure to UV light or NOx gases.
  • at least a fifty percent (50%) reduction in yellowing as measured on the Delta b scale was measured for samples that were exposed to 8 ppm NO 2 gas, and also measured for samples exposed to accelerated ultraviolet light in a QUV weathering unit.
  • This is an advantage particularly for flame barrier foam sheets used in upholstery constructions for mattresses and furniture where the flame barrier foam sheet is placed directly in contact with the surface fabric. Color fastness of the flame barrier foam sheet will avoid or minimize changes in the color(s) of the surface fabric visible to consumers.
  • the Binder Load Factor is the ratio of total dry weight of the coating to the total dry weight of the binder (e.g., TR 520 for Coating 1, AF-4500 for Coating 2, and FR-1 for Coating 3).
  • the target total solids level is the percentage of the formulation that is not volatile or aqueous, and thus the percentage of the coating or impregnation material that remains with the foam after drying or curing.
  • AF-4500 is an ethylene vinyl chloride binder supplied by Air Products and Chemicals Corp.
  • TR 520 is an acrylic latex binder supplied by Rohm and Haas Co.
  • RHOPLEX FR-1 is a polyvinylidene chloride copolymer binder supplied by Rohm and Haas Co.
  • Aluminum trihydrate was a commercial grade.
  • AB100 is a chlorinated phosphate ester liquid flame retardant supplied by Albemarle Corp.
  • Antimony oxide is a fire retardant synergist supplied by Great Lakes Chemical Co.
  • BYK-020 is an anti-foaming agent supplied by BYK-Cheme.
  • Kelzan is a rheology modifier supplied by CP Kelco US, Inc.
  • Coatings 1, 2 and 3 were impregnated onto sheets of polyurethane foam using an impregnation process substantially as set forth and describe above.
  • the starting foam sheet had a thickness of from 3 ⁇ 8 to 1 ⁇ 2 inch, a density of 1.1 pcf and an IFD 25 of about 9.0 lb-force.
  • Table 2 sets out the thickness, density and compression force deflection values for the coated foam samples produced using the coating compositions of Coatings 1, 2 and 3.
  • the exemplary flame barrier foams were denominated A to F for ease of reference.
  • Table 2 further sets out the thickness, density and compression force deflection values for commercially available flame barrier foams of Foamex International Inc. and Chestnut Ridge Foam Inc.
  • 25% CFD was measured using the procedure set forth in ASTM D 3574.
  • 25% CFD or CFD 25 or “compression force deflection” is a measure of the load-bearing properties of the foam and is calculated by dividing the force required to depress a circular platen into a 2′′ ⁇ 2′′ foam sample to deflect the foam to 25% of its original foam height by the cross-sectional area of the sample.
  • the units for CFD are pounds per square inch or “psi”.
  • the commercially available foams FIRESEAL, SAFLITE and SAFGUARD have higher densities and higher CFD 25 than the flame barrier foam sheets incorporated into the upholstery constructions of the invention.
  • the flame barrier sheets impregnated or coated with binder add less weight and provide greater cushioning support to a mattress construction.
  • the upholstery or quilting constructions included a top layer of stretch bedding fabric (75% cotton and 25% polyester), a next layer of the flame barrier foam sheet, a next layer of 1.0 inch thick polyurethane cushioning foam that had a density of about 0.7 pcf and an IFD25 of about 7 lb-force, and finally a nonwoven backing layer.
  • Simulated bedding mattresses were then constructed using the upholstery constructions in order to evaluate the comfort and cushioning characteristics as compared with other flame barrier materials.
  • the quilting constructions were placed on the top of a supportive foam base.
  • the supportive foam base was a polyurethane foam slab cut to 8 inches thick.
  • the supportive foam base had a density of 2.0 pcf and an IFD 25 of 51 lb-force.
  • Example C S2574 8163B 8204B Av. Pressure 14.9 14.2 16.9 15.4 15.6 (mmHg) Lower average pressures indicate greater comfort. Thus, Example C had the lowest average pressure.
  • Example C A full mattress prototype was built using the quilted upholstery construction of Example C.
  • the mattress had a quilt construction with a cover fabric (of 75% cotton and 25% polyester), the flame barrier of Example C, a one-inch thick sheet of QUILTFLEX polyurethane foam (supplied by Foamex International Inc.), and a nonwoven backing.
  • the QUILTFLEX foam had a density of about 0.7 pcf and an IFD 25 of about 7 lb-force.
  • the side border panels also used the cover fabric, flame barrier and nonwoven backing, but eliminated the sheet of QUILTFLEX foam.
  • the test set up 40 requires that the flame barrier foam sheet 24 be placed over a non-treated slab of polyurethane foam 42 .
  • a thermocouple 44 is installed between the flame barrier foam sheet 24 and the slab 42 .
  • a fuel source 46 is placed over the flame barrier foam sheet 24 , such that the fuel source 46 is separated from the slab 42 by the flame barrier foam sheet 24 .
  • the preferred fuel source was a scrap of carpet cushion foam of constant density that had been soaked in isopropyl alcohol to a constant liquid pick up. The fuel source 46 was ignited and allowed to bum until extinguished. The flame spread behavior and char formation were observed.
  • the RHOPLEX FR-1 binder has a glass transition temperature (Tg) of ⁇ 17° C. and a chlorine content of approx. 36% on a dry weight basis.
  • Tg glass transition temperature
  • chlorine content of approx. 36% on a dry weight basis.

Abstract

An upholstery construction for a mattress or an article of furniture includes a flame barrier foam sheet proximate to the back face of a surface fabric layer. The flame barrier foam sheet is formed by coating or impregnating a polyurethane sheet with an aqueous solution of one or more binder(s), such as but not limited to a polyvinyl chloride copolymer or an acrylic latex binder, and one or more flame retardant(s), such as but not limited to aluminum trihydrate or melamine. The flame barrier foam sheet with dried binder(s) and flame retardant(s) not only resists flame ignition but also retains its cushioning properties.

Description

  • This invention relates to flexible polyurethane foams forming at least a portion of an upholstery layer in a bedding or a furniture construction, wherein said foams have a lower density and a desired indentation force deflection, and form a flame barrier to shield more combustible materials in the bedding or furniture construction from ignition by flame.
    • BACKGROUND OF THE INVENTION
  • Polyurethane foams with varying density and hardness may be formed. Hardness is typically measured as IFD (“indentation force deflection”) or CFD (“compression force deflection”). Specifically, IFD25 is the force required to compress the foam to 25% of its original thickness or height. Tensile strength, tear strength, compression set, air permeability, fatigue resistance, support factor, and cell size distribution may also be varied, as can many other foam properties. Specific foam characteristics depend upon the selection of the starting materials, the foaming process and conditions, and sometimes on the subsequent processing.
  • Cellular polyurethane structures typically are prepared by generating a gas during polymerization of a liquid reaction mixture comprised of a polyester or polyether polyol, an isocyanate, a surfactant, catalyst and one or more blowing agents. The gas causes foaming of the reaction mixture to form the cellular structure. The surfactant stabilizes the structure.
  • Untreated cellular polyurethane structures tend to have relatively high flammability, and open flame ignition continues to be a concern where polyurethane foams are incorporated into bedding and furniture. Many mattresses and upholstered furniture articles must meet stringent flammability standards, such as the California Technical Bulletin 603 developed by the California Bureau of Home Furnishings for mattresses. Under the California TB603 standard, a mattress must not reach a heat release rate in excess of 200 kW in the first one-half hour after ignition using a specified energy source. The mattress also cannot exceed a total heat release of 10 MJ in the first ten minutes. Experimentally, it has been found that extremely flame resistant materials should be incorporated into the outer layers of the mattress construction in order to satisfy the California TB603 standard.
  • Some polyurethane foams are made more resistant to flame ignition by incorporating flame retardants in situ into the foam-forming composition. Often, when flame retardants are incorporated in situ, particulate matter is incorporated into the foam structure. Foams formed with flame retardants in situ tend to have less desirable cushioning properties than foams without such additives. It is also more difficult to load large amounts of flame retardant into foams in situ to further increase flame retardance, and larger flame retardant loadings further detract from foam cushioning properties.
  • Higher levels of flame retardance can be achieved by impregnating a polyurethane foam with a coating that incorporates one or more flame retardants. Unfortunately, however, binder-coated foams typically also have higher compression resistance (hardness), and do not provide the same cushioning support that is achieved with untreated foams. Thus, in situ flame retardant foam cushions have been preferred, notwithstanding the fact that higher flammability retardance is still desired.
  • Mattress constructions and furniture upholstery constructions have obtained higher flame resistance by incorporating a fabric or a fiber flame barrier between the upholstery fabric and the cushioning materials (fiber fill or foam) and support structure (springs or foam cushions) within the constructions. The treated fabric or fiber flame barrier provides the needed flame retardance, but has little or no cushioning effect. Hence, either the comfort of the construction is reduced or additional foam or other cushioning material is incorporated into the construction in conjunction with the fabric or fiber flame barrier to restore the original cushioning of the construction. Better cushioning or lower cost mattress or furniture constructions would be produced if such a fabric or fiber flame barrier could be eliminated.
    • SUMMARY OF THE INVENTION
  • According to a first aspect of the invention, an upholstery construction for a mattress or an article of furniture includes a fabric layer having a front surface and a back surface and a flame barrier foam sheet proximate to the back surface of the fabric layer. The flame barrier foam sheet comprises a polyurethane foam sheet that is coated or impregnated with a coating of one or more binders and one or more flame retardants, and dried. After it has been coated or impregnated and dried, the flame barrier foam sheet has a density of in the range of about 1.0 to 6.0 pcf and an compression force deflection (CFD25) of in the range of about 0.1 to 0.4 psi.
  • Preferably, the flame barrier foam sheet is adjacent to the back surface of the fabric layer. Most preferably, when incorporated into a mattress, the upholstery construction is quilted such as by stitching together the flame barrier foam sheet and fabric layer in combination with one or more other layers. The one or more other layers may include a second foam sheet and a nonwoven backing sheet. If included, the second foam sheet preferably is installed adjacent to the flame barrier foam sheet, such as between the flame barrier foam sheet and the backing sheet.
  • The coating preferably is a liquid or an aqueous solution that includes a liquid binder in combination with one or more fire retardants, which may be solid or liquid or a combination thereof. Preferably, the binder in the coating has a glass transition temperature (Tg) of less than about 10° C., most preferably less than about 0° C. The binder in the coating may be selected from materials generally characterized as latexes, such as those based on natural rubber, polyvinyl chloride, ethylene vinyl chloride copolymer, vinyl acetate, vinylidene chloride copolymer and vinyl acetate copolymer chemistry. Other binders may also be used, such as those based on acrylonitrile, epoxy, polychloroprene and polyurethane. Any mixture of the identified binders may also be used. Most preferably, the binder in the coating has a chlorine content of at least about 20% on a dry weight basis.
  • The solid flame retardant in the coating preferably is selected from the group consisting of: melamine, a melamine derivative, aluminum trihydrate, polyvinyl chloride, antimony oxide, expandable graphite, magnesium hydroxide, urea, an amino phosphorous compound such as ammonium polyphosphate, and mixtures thereof. A liquid flame retardant may also be included in the coating.
  • Preferably, the flame barrier foam sheet prior to being coated or impregnated has a density of less than about 1.5 pcf and an indentation force deflection (IFD25) of about 15 lb-force or less. After coating, the coated or impregnated flame barrier foam sheet preferably has a density of from about 2.0 to about 4.5 pcf.
  • According to a second aspect of the invention, a mattress or an article of upholstered furniture incorporates the upholstery construction. The upholstery construction preferably is quilted when incorporated into a mattress. The flame barrier foam may be first wrapped over a cushion and then installed proximate to the fabric layer when incorporated into an article of furniture.
    • DESCRIPTION OF THE FIGURES
  • The invention will be more fully understood by referring to the detailed specification and claims taken in connection with the following drawings. For the purpose of illustrating the invention, certain embodiments are shown in the drawings. It is understood, however, that this invention is not limited to the precise arrangements shown.
  • FIG. 1 is a schematic drawing of an apparatus to coat or impregnate a foam sheet with an aqueous solution containing one or more flame retardant compounds carried by a binder;
  • FIG. 2 is schematic cross-sectional view in side elevation of an upholstery construction for a mattress or an article of furniture according to the invention;
  • FIG. 3 is a schematic cross-sectional view in end elevation of a mattress incorporating the upholstery construction of FIG. 2; and
  • FIG. 4 is a schematic side elevational view of a test configuration for testing the flame retardancy of a flame barrier according to the invention.
    • DESCRIPTION OF THE PREFERRED EMBODIMENTS
  • Referring first to FIG. 1, an impregnation method is shown. A polyurethane foam sheet 10 is provided. Preferably, the polyurethane foam sheet 10 has a thickness in the range of 0.25 to 0.5 inches. Other cushioning foams besides polyurethane foam, and other foam thicknesses, may be used.
  • To achieve the desired cushioning properties in the flame barrier foam sheet of the final upholstery construction, the polyurethane foam forming the foam sheet 10 preferably has a density of less than about 1.5 pounds per cubic foot (pcf), and an IFD25 of about 15 or less, more preferably about 12 or less. Of course, if different cushioning properties are desired, foam sheets with different IFD25 values outside these preferred values may be used.
  • IFD or “indentation force deflection” is determined in accord with a procedure similar to ASTM D 3574. In this case, for IFD25 a foam sample is compressed by 25% of its original height and the force after one minute is reported. Foam samples should be cut to a size 15″×15″×4″ prior to testing.
  • Referring again to FIG. 1, the polyurethane foam sheet 10 is passed over a roller 12 and into a dip pan 14 that contains a coating liquid 16. The foam sheet 10 picks up a quantity of the coating 16 and is then passed between a set of nip rollers 18. The amount of impregnation or coating pick up can be adjusted by varying the gap between the nip rollers 18 and/or adjusting their speed of rotation. A portion of the coating liquid 16 is squeezed out of the foam sheet 10 by the nipping action of the nip rollers 18 and returns to the dip pan 14. From the nip rollers 18 the impregnated foam sheet 10 is passed through one or a series of drying ovens 20. The drying oven 20 may be a radiant heating oven, a convective heating oven or a series of conductive heating elements, or it may be any combination thereof. The coating is dried or cured in the drying oven 20 before the impregnated foam sheet that may form a flame barrier foam sheet 24 is wound over a take up roller 22.
  • The coating liquid 16 may include an aqueous or solvent based binder selected from the group generally characterized as latexes, such as those based on acrylic, natural rubber, polyvinyl chloride, ethylene vinyl chloride copolymers, vinyl acetate, vinylidene chloride copolymers, and vinyl acetate ethylene copolymers. Other binders suitable for use with polyurethane foam may also be used, such as those based on acrylonitrile, epoxy, polychloroprene and polyurethane. A combination of one or more such binders may be included in the coating liquid. Preferably, the binder forming the coating liquid has a glass transition temperature (Tg) of less than 10° C., most preferably, less than 0° C. Preferably, the binder has a chlorine content of at least about 20% on a dry weight basis.
  • The binder may be filled with one or more liquid or solid flame retardant materials to form the coating liquid. Preferably, the solid flame retardants are selected from the group consisting of polyvinyl chloride, melamine, melamine derivatives, aluminum trihydrate, antimony oxide, expandable graphite, magnesium hydroxide, urea, or an amino phosphorous compound, such as ammonium polyphosphate. Preferably, the liquid flame retardants are selected from the group consisting of brominated and chlorinated organic compounds, such as commercially available tetrabromobenzoate esters or chlorinated diphosphate esters. When incorporated, the liquid fire retardant level typically is expected to be less than 25% of the solid fire retardant level.
  • The solids level for the impregnating or coating formulations that remain on the polyurethane foam sheet to form the flame barrier foam sheet may be set forth as the percentage of the coating that remains with the foam after drying or curing. The solids level represents the percentage of the formulation that is not volatile or aqueous. The solids level may be adjusted, for example, to change the viscosity of the coating liquid or to minimize the amount of drying time required. This solids level adjustment is typically achieved by adjusting the amount of water added to the coating formulation. Although the invention is not limited to this range, a typical solids level for the coating or impregnating formulations is between 40 and 60%.
  • The binder load factor may be set forth as the ratio of total dry weight of the coating/impregnation material to the total dry weight of the binder. The binder load factor affects the adhesion of the coating to the polyurethane foam sheet. Although the invention is not limited to this range, a typical load factor for the coating or impregnating formulations is in the range of 3 to 12.
  • Referring next to FIG. 2, an upholstery construction 26 is formed by layering the elements that form the construction. The embodiment shown in FIG. 2 is a quilted upholstery construction 26 suitable for a mattress. A similar upholstery construction (although usually not quilted) may be used in an article of upholstered furniture. A fabric layer 28 forms the outer covering of the mattress. One exemplary fabric layer 28 for a mattress is a knit or woven stretch fabric comprising a blend of cotton and polyester, such as 75% cotton and 25% polyester.
  • The flame barrier foam sheet 24 is positioned adjacent to the fabric layer 28. Next, a second foam layer 29 is positioned adjacent to the flame barrier foam sheet 24. Finally a nonwoven backing 30 is positioned adjacent to the second foam layer 29. The upholstery construction 26 is shown with both a flame barrier foam sheet 24 and a second foam layer 29; however, it is also possible to form the construction without such second foam layer 29. The layers forming the bedding upholstery construction 26 preferably are joined together, such as by sewing.
  • In a furniture upholstery construction, the flame barrier foam sheet 24 would wrap a cushion core, and the flame barrier foam sheet and cushion core would be encased in the upholstery fabric layer 28. A second foam sheet 29 and a nonwoven backing 30 would not normally be used. The upholstery fabric would be sewn together to enclose the flame barrier foam sheet and cushion core to form an upholstered furniture cushion.
  • Referring next to FIG. 3, a mattress 34 is formed with the upholstery construction 26 of FIG. 2. Sections of the upholstery construction 26 form the outer top and bottom surfaces of the mattress 34. In addition, a flame barrier foam sheet 24 in combination with an outer fabric 28 and a nonwoven backing 30 form the outer side surfaces of the mattress 34. The innerspring unit 36 or other support structure is thus encased within the flame barrier foam sheets forming the upholstery construction 26 at the top and bottom, and the flame barrier foam sheet(s) along the sides of the mattress. The flame barrier foam sheets thus shield the support structure of the mattress from ignition sources that could cause the support structure to ignite. In the Examples set out below, the mattress support structure is a slab of polyurethane cushioning foam. Other support structures, such as encased innersprings, or innersprings in combination with cushioning foams or other cushioning materials may be formed.
  • The flame barrier foam sheet according to the invention resists yellowing from exposure to UV light or NOx gases. As compared to equivalent foam compositions that were not coated or impregnated with flame retardant filled binder, at least a fifty percent (50%) reduction in yellowing as measured on the Delta b scale was measured for samples that were exposed to 8 ppm NO2 gas, and also measured for samples exposed to accelerated ultraviolet light in a QUV weathering unit. This is an advantage particularly for flame barrier foam sheets used in upholstery constructions for mattresses and furniture where the flame barrier foam sheet is placed directly in contact with the surface fabric. Color fastness of the flame barrier foam sheet will avoid or minimize changes in the color(s) of the surface fabric visible to consumers.
  • The invention is further illustrated, but not limited by, the following examples.
    • EXAMPLES
  • Table 1 below sets out the composition of three exemplary coating liquids that were used. Unless otherwise indicated, amounts are reported as wet parts per hundred based on the weight of the liquid.
    TABLE 1
    Coating 1 Coating 2 Coating 3
    Water 40.102 37.216 39.919
    AF-4500 17.927
    TR 520 9.705
    RHOPLEX FR-1 12.007
    Aluminum trihydrate 46.117 44.734 47.994
    AB100 3.008
    Antimony oxide 1.016
    Kelzan 0.053 0.019 0.012
    BYK-020 0.109 0.067
    Target total solids 54.9% 53.8% 54.0%
    Binder Load Factor 11.3 6.0 9.0
  • The Binder Load Factor is the ratio of total dry weight of the coating to the total dry weight of the binder (e.g., TR 520 for Coating 1, AF-4500 for Coating 2, and FR-1 for Coating 3). The target total solids level is the percentage of the formulation that is not volatile or aqueous, and thus the percentage of the coating or impregnation material that remains with the foam after drying or curing.
  • AF-4500 is an ethylene vinyl chloride binder supplied by Air Products and Chemicals Corp. TR 520 is an acrylic latex binder supplied by Rohm and Haas Co. RHOPLEX FR-1 is a polyvinylidene chloride copolymer binder supplied by Rohm and Haas Co.
  • Aluminum trihydrate was a commercial grade. AB100 is a chlorinated phosphate ester liquid flame retardant supplied by Albemarle Corp.
  • Antimony oxide is a fire retardant synergist supplied by Great Lakes Chemical Co.
  • BYK-020 is an anti-foaming agent supplied by BYK-Cheme.
  • Kelzan is a rheology modifier supplied by CP Kelco US, Inc.
  • Coatings 1, 2 and 3 were impregnated onto sheets of polyurethane foam using an impregnation process substantially as set forth and describe above. In each case, the starting foam sheet had a thickness of from ⅜ to ½ inch, a density of 1.1 pcf and an IFD25 of about 9.0 lb-force.
  • Table 2 below sets out the thickness, density and compression force deflection values for the coated foam samples produced using the coating compositions of Coatings 1, 2 and 3. The exemplary flame barrier foams were denominated A to F for ease of reference. For comparison, Table 2 further sets out the thickness, density and compression force deflection values for commercially available flame barrier foams of Foamex International Inc. and Chestnut Ridge Foam Inc.
  • 25% CFD was measured using the procedure set forth in ASTM D 3574. 25% CFD or CFD25 or “compression force deflection” is a measure of the load-bearing properties of the foam and is calculated by dividing the force required to depress a circular platen into a 2″×2″ foam sample to deflect the foam to 25% of its original foam height by the cross-sectional area of the sample. Thus, the units for CFD are pounds per square inch or “psi”.
    TABLE 2
    Example Coating Density (pcf) CFD25 (psi) Thickness (in)
    A 2 2.0 0.22 0.36
    B 2 3.3 0.24 0.35
    C 1 3.9 0.26 0.36
    D 3 4.6 0.26 0.29
    E 3 3.9 0.25 0.31
    F 3 3.4 0.22 0.28
    SAFLITE 9.8 1.95 0.37
    SAFGUARD 7.2 0.83 0.38
    FIRESEAL 5.7 0.59 0.30

    FIRESEAL is coated flame retardant polyurethane foam supplied by Foamex International Inc. SAFLITE and SAFGUARD are other coated flame retardant foams supplied by Chestnut Ridge Foam Inc. These coated foams are typically used to build mattresses for the healthcare, correctional and university dormitory markets.
  • The commercially available foams FIRESEAL, SAFLITE and SAFGUARD have higher densities and higher CFD25 than the flame barrier foam sheets incorporated into the upholstery constructions of the invention. Thus, the flame barrier sheets impregnated or coated with binder add less weight and provide greater cushioning support to a mattress construction.
  • Certain of the flame barrier foam sheets of the examples set out in Table 2 were then used to form upholstery constructions. The upholstery or quilting constructions included a top layer of stretch bedding fabric (75% cotton and 25% polyester), a next layer of the flame barrier foam sheet, a next layer of 1.0 inch thick polyurethane cushioning foam that had a density of about 0.7 pcf and an IFD25 of about 7 lb-force, and finally a nonwoven backing layer. Simulated bedding mattresses were then constructed using the upholstery constructions in order to evaluate the comfort and cushioning characteristics as compared with other flame barrier materials. The quilting constructions were placed on the top of a supportive foam base. The supportive foam base was a polyurethane foam slab cut to 8 inches thick. The supportive foam base had a density of 2.0 pcf and an IFD25 of 51 lb-force.
  • These mattresses were compared for comfort with mattresses formed with the same polyurethane foam slab, stretch bedding fabric, cushioning polyurethane foam and nonwoven backing in combination with competitive flame barrier fabrics instead of the coated or impregnated polyurethane foam flame barrier sheet as used in Examples A and C. The three flame barrier fabrics tested were Chiquola S2574 and TexTech 8163B and 8204B. All of these flame barrier fabrics are marketed as suitable for use in mattresses, and are indicated as having ability to pass the California TB603 flammability test, as described above.
  • The upholstery or quilt constructions including the flame barrier foam sheets of Examples A and C, and the quilt constructions including S2574, 8163B and 8204B were placed over the supporting foam base. A190 lb. adult reclined on the quilt construction and foam base as part of a pressure map test using an FSA unit purchased from Vista Medical. Five pressure measurements were taken for each sample, and these measurements were then averaged. Each test yielded an average pressure over the surface area in contact with the quilt construction. The results are reported in Table 3 below.
    TABLE 3
    Example A Example C S2574 8163B 8204B
    Av. Pressure 14.9 14.2 16.9 15.4 15.6
    (mmHg)

    Lower average pressures indicate greater comfort. Thus, Example C had the lowest average pressure.
  • A full mattress prototype was built using the quilted upholstery construction of Example C. The mattress had a quilt construction with a cover fabric (of 75% cotton and 25% polyester), the flame barrier of Example C, a one-inch thick sheet of QUILTFLEX polyurethane foam (supplied by Foamex International Inc.), and a nonwoven backing. The QUILTFLEX foam had a density of about 0.7 pcf and an IFD25 of about 7 lb-force. The side border panels also used the cover fabric, flame barrier and nonwoven backing, but eliminated the sheet of QUILTFLEX foam.
  • The mattress so made was sent to the California Bureau of Home Furnishings for testing under the TB603 flammability standard. The mattress passed the flammability standard test as set forth below, and was reported to have been more than 95% recovered.
    Results Requirement
    Max. rate of heat release (kW) 15 Less than 200 kW
    in 30 min.
    Total heat release at end of 3 Less than 10 in first ten
    test (MJ) min.
    Max. ceiling temperature 185
    (° F.)
    Total smoke release at end of 16
    test (m3)
    Total test duration (min:sec) 10:01 30 min. max. observation
    Reason for termination self-
    extinguished
  • A smaller scale flammability evaluation for the flame barrier foam sheets was made using a simplified test set up. Referring to FIG. 4, the test set up 40 requires that the flame barrier foam sheet 24 be placed over a non-treated slab of polyurethane foam 42. Optionally, a thermocouple 44 is installed between the flame barrier foam sheet 24 and the slab 42. A fuel source 46 is placed over the flame barrier foam sheet 24, such that the fuel source 46 is separated from the slab 42 by the flame barrier foam sheet 24. The preferred fuel source was a scrap of carpet cushion foam of constant density that had been soaked in isopropyl alcohol to a constant liquid pick up. The fuel source 46 was ignited and allowed to bum until extinguished. The flame spread behavior and char formation were observed.
  • In the case of Examples A to F above, the fuel source 46 self extinguished before the underlying flame barrier foam sheet 24 or foam slab 42 ignited. This qualitative test thus establishes that the flame barrier foam sheets 24 prevented ignition or combustion of the underlying more combustible foam slab 42. The flame barrier foam sheets 24 thus had good flame retardant properties, and all of the other Examples A, B and D to F similarly would be expected to be useful in helping to pass the California TB603 flammability test.
  • While Examples A to F are all considered within the scope of the invention, Examples D, E and F are particularly preferred. The RHOPLEX FR-1 binder has a glass transition temperature (Tg) of −17° C. and a chlorine content of approx. 36% on a dry weight basis. The combination of low glass transition temperature and high chlorine content in the binder of the coating liquid yielded flame barrier foam sheets with better flammability performance and better cushioning performance than the flame barrier foam sheets of Examples A, B and C.
  • The invention has been illustrated by detailed description and examples of the preferred embodiments. Various changes in form and detail will be within the skill of persons skilled in the art. Therefore, the invention must be measured by the claims and not by the description of the examples or the preferred embodiments.

Claims (17)

1. An upholstery construction for a mattress or an article of furniture, comprising:
a fabric layer having a front surface and a back surface;
a flame barrier foam sheet proximate to the back surface of the fabric layer,
wherein said flame barrier foam sheet comprises a polyurethane foam sheet that is coated or impregnated with a coating of one or more binders and one or more flame retardants, and dried, further wherein said flame barrier foam sheet after it has been coated or impregnated and dried has a density of in the range of about 1.0 to 6.0 pcf and an compression force deflection (CFD25) of in the range of about 0.1 to 0.4 psi.
2. The upholstery construction of claim 1, wherein the flame barrier foam sheet is adjacent to the back surface of the fabric layer.
3. The upholstery construction of claim 1, wherein the upholstery construction is quilted such as by stitching together the flame barrier foam sheet and fabric layer in combination with one or more other layers.
4. The upholstery construction of claim 1, wherein the binder in the coating has a glass transition temperature (Tg) of less than about 10° C.
5. The upholstery construction of claim 1, wherein the binder in the coating has a glass transition temperature (Tg) of less than about 0° C.
6. The upholstery construction of claim 1, wherein the coated or impregnated flame barrier foam sheet has a density of from about 2.0 to about 4.5 pcf.
7. The upholstery construction of claim 1, wherein the binder in the coating is selected from the group consisting of: acrylic latex, natural rubber latex, polyvinyl chloride copolymers, ethylene vinyl chloride copolymers, vinyl acetate, vinylidene chloride copolymers, vinyl acetate ethylene copolymers, neoprene, acrylonitrile, polychloroprene, polyurethane, and mixtures thereof.
8. The upholstery construction of claim 1, wherein the binder in the coating has a chlorine content of at least about 20% on a dry weight basis.
9. The upholstery construction of claim 1, wherein the flame retardant in the coating is selected from the group consisting of: melamine, a melamine derivative, aluminum trihydrate, polyvinyl chloride, antimony oxide, expandable graphite, magnesium hydroxide, urea, an amino phosphorous compound such as ammonium polyphosphate, and mixtures thereof.
10. The upholstery construction of claim 9, wherein the coating further comprises a liquid flame retardant.
11. The upholstery construction of claim 1, wherein the flame barrier foam sheet prior to being coated or impregnated has a density of less than about 1.5 pcf and an indentation force deflection (IFD25) of about 15 lb-force or less.
12. The upholstery construction of claim 1, further comprising: a second foam sheet installed proximate to the flame barrier foam sheet.
13. The upholstery construction of claim 12, wherein the second foam sheet is installed adjacent to the flame barrier foam sheet and between the flame barrier foam sheet and a backing sheet.
14. The upholstery construction of claim 1, wherein the flame barrier sheet resists yellowing when exposed to ultraviolet light.
15. The upholstery construction of claim 1, wherein the flame barrier sheet resists yellowing when exposed to one or more NOx gases.
16. A mattress or article of upholstered furniture incorporating the upholstery construction of claim 1.
17. A mattress or article of upholstered furniture incorporating the upholstery construction of claim 13.
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