| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 442141000 |
Phosphorus containing
| 29 |
| 442147000 |
Nitrogen containing
| 9 |
| 442138000 |
Coating or impregnation is specified as an intumescent material | 5 |
| 20090042470 | QUILTING FABRIC - Provided is quilting fabric that prevents stitches from affecting extension or contraction of the quilting fabric; prevents misalignment of weave patterns of a front-side fabric and a back-side fabric; and also prevents any part of a filling body placed between the front-side fabric and the back-side fabric from coming out of gaps between the fabric warp yarns and weft yarns. | 02-12-2009 |
| 20090111345 | THERMALLY PROTECTIVE MATERIALS - A mixture comprising an expandable graphite and a polymer resin is described wherein the polymer resin-expandable graphite mixture has a volume increase and structural integrity after exposure to heat. Methods are described for increasing the thermal protective performance (TPP) of textiles and laminates while optionally maintaining comfort, flexibility, and liquid protective properties. | 04-30-2009 |
| 20110183561 | Thermally Protective Materials - A mixture comprising an expandable graphite and a polymer resin is described wherein the polymer resin-expandable graphite mixture has a volume increase and structural integrity after exposure to heat. Methods are described for increasing the thermal protective performance (TPP) of textiles and laminates while optionally maintaining comfort, flexibility, and liquid protective properties. | 07-28-2011 |
| 20140213131 | FLAME RETARDANT TEXTILE - The disclosure relates to curable polysilyl phosphate compounds and compositions as well as related methods and flame-retardant textiles incorporating the same. Curable polysilyl phosphate compounds according to the disclosure include a hydrocarbon moiety comprising at least one phosphate group and more than two hydrolysable silyl groups linked to the hydrocarbon moiety. In some embodiments, the hydrocarbon moiety is derived from spirocyclic pentaerythritol diphosphoryl chloride. The curable polysilyl phosphate compound can applied to a textile substrate and then cured to provide a flame-retardant textile with the cured polysilyl phosphate compound as a coating bonded to the textile substrate. | 07-31-2014 |
| 20150017856 | ARTICLE INCLUDING INTUMESCENT COATING, PROCESS FOR FORMING AND USE OF SAME - An article includes a substrate and an intumescent coating to form an intumescent product in response to heating the article. The intumescent coating is disposed on the substrate and includes a primary intumescent precursor and a layered material that includes a silicate mineral, a layered double hydroxide, or a combination thereof. The primary intumescent precursor includes a carbohydrate polymer. A process for forming an article includes forming a liquid composition by disposing in a solvent a primary intumescent precursor and a layered material, contacting a substrate with the liquid composition, and forming an intumescent coating on the substrate to form the article. | 01-15-2015 |
| 442146000 |
Halogen containing | 5 |
| 20090137174 | FLAME-RETARDANT POLYMERIC COMPOSITIONS - A flame-retarded polymeric composition is provided which contains a) a polyolefin, b) a mixture of a halogenated flame-retardant and zeolite, and optionally c) a synergist. Also provided is a flame and smoke-retarded polymeric composition containing a polyolefin and a mixture of a hydrated metal oxide and zeolite. | 05-28-2009 |
| 20090186543 | Airbag with flame retardant monolithic coating layer - Provided herein are specific coating compositions, which are used as a monolithic coating layer for airbags. Preferably, these coating compositions are comprised of urethanes, which are blended together, where at least one of the urethane components is inherently flame retardant and the other of which is a urethane with gas-retaining properties. The gas-retaining urethane may be characterized as having high tensile strength at break, high elongation at break, and a 100% modulus less than 2,000 p.s.i. The inherently flame retardant urethane is the result of a manufacturing process in which a halogenated diol is reacted with an isocyanate, resulting in the incorporation of halogens into the polyurethane backbone. The resulting coating compositions (that is, the blends of gas-retaining urethane and flame retardant urethane), when applied as a single layer to an airbag fabric, result in an airbag with good gas retention, flame retardance, anti-blocking properties, and aging stability. | 07-23-2009 |
| 20090197492 | TEXTILE PRODUCT WITH FLAME RETARDED BACK-COATING AND METHOD OF MAKING THE SAME - Textile products having a flame retarded coating wherein the flame retarded coating contains as a flame-retarding agent a composition comprising N-2,3-Dibromopropyl-4,5-dibromohexahydrophthalimide. | 08-06-2009 |
| 20130090031 | COMPOSITE FILM MATERIAL COMPRISING A RESIN OF FLUORENE CROTONATE, FLUORENE CINNAMATE, FLUORENE ACRYLATE, FLUORENE METHACRYLATE, FLUORENE ALLYLETHER OR A COMBINATION THEREOF - This invention concerns with a composite film or a layered product having high transparency, excellent resistance to heat and excellent dimensional stability, useful in the manufacturing of electronic display devices, photovoltaic devices, lighting devices, automotive windshields and lights, and safety and armored windows. | 04-11-2013 |
| 20130217286 | FLAME-RETARDING OLIGOMERIC BROMINATED URETHANE COMPOSITIONS - The flame-retarding properties of polymeric compositions are selectively enhanced, without adversely affecting other properties of these materials to any significant degree, by including in the compositions oligomeric urethanes with high bromine content. | 08-22-2013 |
| 442139000 |
Antimony containing | 4 |
| 20080242176 | Fabric with improved heat resistance and methods of making same - Fabric impregnated with polysiloxane. The fabric may be leather, synthetic leather or suede. Alternatively the fabric may be made from aramid or oxidized polyacrylic/nitride fibers. One method of making this fabric is to mix liquid silicone rubber; impregnate the fabric with the liquid chemical; and heat the fabric at 120-200° C. for 10-150 seconds. Another method of making the fabric is to mix liquid silicone rubber or a mixture of liquid silicone rubber and catalyzed polyurethane with fibers and heat the mixture at 120-200° C. for 10-150 seconds. Fibers may be polyester microfibers, nylon microfibers, suede, aramid, oxidized polyacrylic/nitride, and mixtures of these fibers. | 10-02-2008 |
| 20100144226 | Thermally-Activated Heat Resistant insulating Apparatus - A firefighting and protection apparatus being thermally-activated and/or heat resistant when subjected to a temperature above a pre-determined limit thermally set chemical reactions occur within the apparatus which causes the apparatus to expand in volume for multifunctional purposes including acting as an insulator against heat, an absorbent for diminishing contact between fuel and oxygen, and release inert gases and flame retardants for disrupting chemical reactions that sustain a fire. | 06-10-2010 |
| 20120238167 | COMPOSITE YARN, FABRIC, AND AUTOMOTIVE INTERIOR MATERIAL MADE FROM PAPER - The present invention provides a method for manufacturing a composite yarn of paper, e.g., traditional Korean paper, and a composite yarn manufactured thereby, a method for manufacturing a fabric using the same and an automotive interior material manufactured thereby. More particularly, the present invention relates to a method for manufacturing a composite yarn of traditional Korean paper by using a traditional Korean paper yarn and a synthetic yarn, in which the composite yarn can be used in weaving and knitting, and a method for manufacturing a fabric as an automotive interior material using the same. Accordingly, the present invention provides a method for manufacturing a composite yarn of paper, comprising twisting a tape-type paper yarn, and covering the twisted paper yarn as a ground yarn at least two strands of synthetic yarn as an effect yarn to manufacture a composite yarn of paper of 160˜700 denier. | 09-20-2012 |
| 20140370772 | COMPOSITE YARN, FABRIC, AND AUTOMOTIVE INTERIOR MATERIAL MADE FROM PAPER - The present invention provides a method for manufacturing a composite yarn of paper, e.g., traditional Korean paper, and a composite yarn manufactured thereby, a method for manufacturing a fabric using the same and an automotive interior material manufactured thereby. More particularly, the present invention relates to a method for manufacturing a composite yarn of traditional Korean paper by using a traditional Korean paper yarn and a synthetic yarn, in which the composite yarn can be used in weaving and knitting, and a method for manufacturing a fabric as an automotive interior material using the same. Accordingly, the present invention provides a method for manufacturing a composite yarn of paper, comprising twisting a tape-type paper yarn, and covering the twisted paper yarn as a ground yarn at least two strands of synthetic yarn as an effect yarn to manufacture a composite yarn of paper of 160˜700 denier. | 12-18-2014 |
| 442140000 |
Boron containing | 2 |
| 20090156073 | FIRE RESISTANT CELLULOSIC MATERIALS AND METHOD OF MAKING THE SAME - The invention relates to a fire resistant composition and a method of making fire resistant cellulosic materials comprising the fire resistant composition. More specifically, the invention relates to liquid compositions, including liquid compositions comprising urea and a boron-containing compound for imparting fire resistance to cellulosic products. The boron-containing compound typically comprises boric acids; borates (i.e., boric acid salts); boric oxides (i.e., any compound containing boron and oxygen), and mixtures thereof. | 06-18-2009 |
| 20140287640 | Functionalized Ionic Liquids and Their Applications - Disclosure of functionalized ionic liquids. Use of disclosed ionic liquids as solvent for carbon dioxide. Use of disclosed ionic liquids as flame retardant. Use of disclosed ionic liquids for coating fabric to obtain flame retardant fabric. | 09-25-2014 |
| Entries |
| Document | Title | Date |
|---|
| 20080214076 | BASE LAYER APPAREL - A base layer apparel is provided that is formed from a single or double-knit fabric. The fabric is formed of ring spun fire resistant yarns that are an intimate blend of at least 60 percent modacrylic fibers and up to 40 percent fire-resistant viscose fibers. Anti-microbial and wicking treatments may be applied to the knit fabric. | 09-04-2008 |
| 20080214077 | Fire resistant panel and method of making - The present invention teaches that a tightly woven, and strong sheet of fiberglass may be saturated or impregnated with sodium silicate in order to produce a strong and fire resistant sheet. A sheet of silica fabric may be adhered to the sheet of fiberglass in order to provide additional protection from combustion. The present invention further teaches that a fire door core may be mass produced from fire resistant sheets, silica sheets, and that the core may be rated for fire safety by a rating agency, thus allowing door manufacturers to produce doors using that core without individually certifying each model of door. The impregnation may occur by spraying, by rolling or by other means, and the drying process of the sodium silicate occurs after it has been saturated into the fiberglass sheet. | 09-04-2008 |
| 20080242175 | Durable and fire resistant nonwoven composite fabric based military combat uniform garment - The present invention is directed to the design and manufacturing of a field durable, repeatedly launderable and permanently fire resistant, comfortable and economical FR nonwoven composite fabric based garment, which meets the stringent requirements of military combat uniform clothing. The nonwoven based garment is designed to replace the traditional woven textile fabric used in the military today. The novel garment of the current invention is constructed using a unique spunlaced or hydroentangled FR nonwoven composite fabric that exhibits mechanical, physical, durability and comfort characteristics similar to or better than that of the current woven military uniform fabric. In particular, the present invention contemplates the nonwoven composite fabric used to make the garment is prepared by combining at least two separate nonwoven webs forming the inside and outside layers of the garment. An optional rip-stop element such as a loosely knitted fabric may be sandwiched between the two nonwoven webs to improve the dimensional stability of the entire garment. Hydroentangling process combines the individual nonwoven webs to form a coherent base nonwoven composite fabric before dyeing and printing which is then made fire resistant by application of a phosphate ester chemical in an ammonia-cure process to form the FR nonwoven composite fabric of the garment. | 10-02-2008 |
| 20080299854 | Flame Resistant Spacer Fabric - The present invention provides a heat resistant spacer fabric comprising a first and second fabric layers that are formed of a flame resistant material arranged in opposing face-to-face relation and are spaced apart from each other. The first and second fabric layers are interconnected to each other with one or more spacer fibers that interconnect the first and second fabric layers and define a space therebetween. The spacer fibers comprise at least one core fiber having one or more wrap fibers of a flame resistant material wrapped thereabout. The wrap fibers protect the core fibers from direct contact with heat and flame. If the spacer fabric is exposed to heat/flame, the flame resistant wrap fibers help to prevent any melted material of the core fibers from flowing out of the spacer fabric. The spacer fabric can be used in protective garments such as coats, gloves, pants, cover-alls, suits, etc. | 12-04-2008 |
| 20090137173 | INCOMBUSTIBLE INSULATION MATERIAL - Invention is about an incombustible insulation material used for the purposes of heat and sound insulation, absorption of humidity and prevention and delay of spread of fires that may occur in dwellings, offices, schools, theatres, cinemas, concert halls, hospitals, in land, air and marine public transport vehicles, in all military and industrial applications, in rockets, jet engines and gas turbines. | 05-28-2009 |
| 20090298370 | Flame Retardant Fabrics - A fabric article of knitted or woven construction with flame retardant, interlaced yarns has a pile, raised or fleece region on its inner surface and a flame retardant coating on its outer surface. The flame retardant coating provides both flame retardancy and improved durability against pilling and fraying without substantial adverse effect on characteristics of the base fabric. A method of forming the fabric article is also described. | 12-03-2009 |
| 20090305590 | Durable Flame-Retardant Nonwoven Fabric - This invention relates to a durable fire retardant nonwoven fabric and method of making the same. Said fabric performs in accordance to the requirements set forth in Technical Bulletin 603 of the State of California Department of Consumer Affairs (TB_603), wherein the fire retardant fabric includes at least two layers including at least one strength and reinforcing layer. | 12-10-2009 |
| 20100003878 | Fire resistant mattress fabric material and mattress - A fire resistant fabric material comprising 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 comprising clay and a binder material. The substrate is preferably fiberglass, the filler material may further comprise at least one additional filler selected from the group consisting of decabromodiphenyloxide, antimony trioxide, fly ash, charged calcium carbonate, mica, glass microspheres and ceramic microspheres and mixtures thereof and the binder material is preferably acrylic latex. | 01-07-2010 |
| 20100003879 | Composition ignifugee a base de PVC - The use for yarn coating, for the manufacture of sun canopies, of a flame-retardant plastisol including a chlorinated polymer material free of lead including at least:
| 01-07-2010 |
| 20100029156 | Flame retardant synthetic fiber, flame retardant fiber composite, production method therefor and textile product - A flame retardant synthetic fiber and a flame retardant fiber composite that satisfy high flame retardance and high fire resistance, a method for producing the flame retardant synthetic fiber and the flame retardant fiber composite, and a textile product are provided. The flame retardant synthetic fiber of the present invention includes a polymer (1) containing 30 to 70 parts by mass of acrylonitrile, 70 to 30 parts by mass of a halogen-containing vinylidene monomer and/or a halogen-containing vinyl monomer, and 0 to 10 parts by mass of a vinyl-based monomer copolymerizable therewith, based on 100 parts by mass of the polymer, and at least one kind of a metal compound (2) that accelerates a dehalogenation reaction of the polymer (1) during burning and a carbonization reaction of the polymer (1) during burning, wherein the flame retardant synthetic fiber has a shrinkage variation of 45% or less when a temperature is raised from 50° C. to 300° C. under a load of 0.0054 mN/dtex. | 02-04-2010 |
| 20100035494 | HIGHLY THERMALLY CONDUCTIVE ACRYLIC ADHESIVE SHEET - To provide a thermally conductive acrylic sheet having a high temperature conductivity and also a good adhesion characteristic. | 02-11-2010 |
| 20100087115 | MICROENCAPSULATION OF A PHASE CHANGE MATERIAL WITH ENHANCED FLAME RESISTANCE - A flame-resistant microcapsule that comprises a core comprising a phase change material and a wall material encapsulating the core. The microcapsules includes at least one of: a flame retardant applied to the wall material and a phase change material having a boiling point of about 230° C. to about 420° C. to provided enhanced flame resistance. The phase change material may have a boiling point of about 280° C. to about 400° C. or about 300° C. to about 390° C. | 04-08-2010 |
| 20100105266 | COMPOSITE FIRE SHIELD - A fire-critical aircraft or other component within a fire-risk zone includes a protective fire shield directly exposed to the fire-risk zone and separating the fire-critical component therefrom. The fire shield has an entirely composite construction composed of fibre cloth impregnated with a sacrificial resin which has a melting point that is below that of the fibre cloth. When exposed to fire, the fibre cloth remains substantially intact for at least the minimum period of time while the sacrificial resin is allowed to be at least partially consumed by the fire, such that the protective fire shield is partially sacrificed. | 04-29-2010 |
| 20100261397 | NONWOVEN FLAME RESISTANT MATERIALS AND PROCESS FOR MAKING THE SAME - Disclosed is a process for making fire resistant materials, such as fabrics or barriers, comprising the steps of selecting cellulosic fibers and optionally synthetic fibers; feeding a machinery serving to make the nonwoven material with the fibers, and treating the fibers at least one time with at least one fire retardant chemical compound while the machinery is making the non-woven material for obtaining the requested fire resistant nonwoven material. Preferably, an aqueous solution containing the fire retardant chemical compounds is spread on the nonwoven web before, during and/or after the web is heated up during a thermo bonding step of the process. The process is environmentally friendly and allows for higher impregnation of the fibers with fire retardant chemicals. | 10-14-2010 |
| 20100279567 | AIR-LAID NON-WOVEN FIBRE PRODUCT COMPRISING FIBRES OF RECYCLED MATERIAL - The present invention concerns an air-laid non-woven fibre product manufactured by a dry forming process, said product comprising a first portion of up to 98% recycled shredded material, where the shredded material is a mixture of shredded fabric material fibres from automotive tires or the like and residues of rubber and other components from the shredded tires, and a second portion of 1-30%, preferably 1-5%, bi-component fibres having a length between 2-50 mm, preferably 2-6 mm in length. | 11-04-2010 |
| 20110009022 | FIRE RETARDANT FABRIC AND/OR APPAREL - A fire retardant fabric or garment comprising: a fabric or garment and a fire retardant composition including a polyvinyl alcohol copolymer, a vinyl acetate copolymer an acrylic emulsion, and vinyl acrylic emulsion or a combination thereof. | 01-13-2011 |
| 20110070795 | THERMAL SPRAY MASKING TAPE - A thermal spray masking tape includes a substrate having a first major surface and a second major surface. The thermal spray masking tape further includes a surface layer overlying the first major surface of the substrate. The surface layer is formed from an elastomer including a liquid silicone rubber. | 03-24-2011 |
| 20110237144 | PHOSPHORUS FLAME RETARDANTS AND APPLICATIONS THEREFOR - This invention relates to a phosphorus flame retardant composition formed from bringing together components comprising: a) a cyclic phosphanate flame retardant comprising (5-ethyl-2-methyl-2-oxido-1,3,2-dioxaphosphorinan-5-yl)methyl methyl ester of P-alkylphosphonic acid, and bis[(5-ethyl-2-methyI-2-oxido-1,3,2-dioxaphosphorinan-5-yl)methyl]ester of P-alkylphosphonic acid; and b) an alkylated triaryl phosphate ester flame retardant having a triphenyl phosphate (TTP) content of less than about 1 wt % based on the total weight of the alkylated triaryl phosphate ester. This invention further relates to the use of this phosphorus flame retardant composition especially for in polyurethane foams and textile applications. | 09-29-2011 |
| 20110318983 | FIRE RETARDANT PANEL COMPOSITIONS - A fire retardant structural board is provided that includes a body of fibrous material, a triglycidyle polyester binder, a sodium borate pentahydride fire retardant, and a sodium borate pentahydride fire retardant. The body of fibrous material has a weight, first and second surfaces, first and second sides, and a thickness. The fibrous material and triglycidyle polyester are dispersed throughout the thickness of the body. The sodium borate pentahydride fire retardant is dispersed between individual fibers of the fibrous material and throughout the thickness of the body. A sodium borate pentahydride fire retardant composition also coats at least the first surface of the body. | 12-29-2011 |
| 20120108129 | POLYAMIDE COMPOSITE STRUCTURES AND PROCESSES FOR THEIR PREPARATION - Disclosed herein are composite structures and processes for their preparation. The disclosed composite structures comprise a surface, having at least a portion made of a surface resin composition selected from polyamide compositions comprising a blend of two or more fully aliphatic polyamides having a melting point of at least 250° C. and comprise a fibrous material being impregnated with a matrix resin composition, and wherein the matrix resin composition is selected from polyamide compositions comprising a one or more fully aliphatic polyamides having a melting point of at least 250° C. | 05-03-2012 |
| 20120108130 | OVERMOLDED POLYAMIDE COMPOSITE STRUCTURES AND PROCESS FOR THEIR PREPARATION - Disclosed herein are overmolded composite structures and processes for their preparation. The disclosed overmolded composite structures comprise i) a first component having a surface, of which at least a portion made of a surface resin composition, and comprising a fibrous material being impregnated with a matrix resin composition, ii) a second component comprising an overmolding resin composition, wherein said second component is adhered to said first component over at least a portion of the surface of said first component, and wherein the matrix resin composition and the surface resin composition are identical or different polyamide compositions. | 05-03-2012 |
| 20120178325 | POLYAMIDE COMPOSITE STRUCTURES AND PROCESSES FOR THEIR PREPARATION - The invention relates to composite structures having surface, which surface has at least a portion made of a composition comprising one or more polyamides having an excess of amine end groups such that the ratio of the amine end groups to the acid end groups is at least 1.5:1.0. | 07-12-2012 |
| 20120178326 | FLASH FIRE AND CHEMICAL RESISTANT FABRIC AND GARMENTS - A flash fire and chemical barrier composite fabric, comprising a flame resistant fibrous basic layer; a radiant heat and chemical permeation barrier, the barrier including a metalized polymeric chemical permeation resistant layer film; and a clear heat sealable outer film layer overlying the radiant barrier and forming a heat sealable outer surface of the composite fabric. | 07-12-2012 |
| 20120231687 | METHOD FOR PRODUCING FIBER-REINFORCED COMPOSITE MATERIAL, AND HEAT-RESISTANT MOLD MATERIAL AND HEAT-RESISTANT STRUCTURAL MATERIAL USING THE FIBER-REINFORCED COMPOSITE MATERIAL - A method for producing a fiber-reinforced composite material having high mechanical properties and high heat resistance, and allowing the use of a gypsum die in primary curing, wherein a fiber-reinforced prepreg, obtained by impregnating reinforcing fibers with an epoxy resin composition comprising a triphenylmethane-type epoxy resin, N,N,N′,N′-tetraglycidyldiaminodiphenylmethane (B) and diaminodiphenylsulfone (C), is subjected to primary curing at 110-130° C., and then to secondary curing at a temperature which is at least as high as the primary curing temperature. | 09-13-2012 |
| 20120252295 | Wet blanket - A wet blanket obtained by impregnating a blanket including bio-soluble inorganic fibers with a colloidal silica liquid. A cured blanket obtained by curing the wet blanket. | 10-04-2012 |
| 20120282835 | HIGH TEAR STRENGTH FLAME RESISTANT COTTON FABRIC - “A flame resistant fabric with better tear strength and specifically a flame resistant fabric with tear strength flame resistant 100% cotton yarn are provided. The 100% cotton yarn is produced using a combination of compact spinning technology and gassing and/or singeing process performed in tandem, the yarn is weaved into fabric by pre-established process and the fabric is flame retardant finished by using chemicals and lubricants by pre-established process to form the flame resistant fabric with better tear strength. Also, a method of manufacturing the flame resistant cotton fabric that has a better tear strength after fire resistant treatment s provided. Advantageously, the flame resistant fabric is affordable, light weight and has better tensile and tear strength.” | 11-08-2012 |
| 20130012089 | PROCESS OF USING SODIUM SILICATE TO CREATE FIRE RETARDANT PRODUCTS - Wood products, specifically wood commonly used in construction including dimension lumber, pressure treated pine, composite wood materials such as plywood, particle board, and wafer board, and samples of paper and fabric were variously treated with concentrations of sodium silicate (Na | 01-10-2013 |
| 20130143457 | Formulated Benzoxazine Based System for Transportation Applications - The present disclosure provides a halogen-free thermosetting composition including a benzoxazine compound, a monobenzoxazine monomer, and a naphthalene epoxy. The halogen-free thermosetting composition is especially suited for use in aerospace, automobile, rail and marine applications. | 06-06-2013 |
| 20130244519 | FLAME RESISTANT BACKSHEET FOR SOLAR CELL MODULES - Disclosed herein is a flame resistant flexible backsheet for solar cell modules, which comprises (a) a flame resistant layer formed of a non-metal inorganic fiber fabric; and (b) a first polymeric layer that is adhered to a first side of the flame resistant layer. Further disclosed herein is a solar cell module comprising the flame resistant flexible backsheet. | 09-19-2013 |
| 20130280975 | AQUEOUS FLAME RETARDANT COMPOSITION FOR MINERAL FIBER-BASED MAT, AND MATS OBTAINED - The present invention concerns an aqueous flame retardant composition for mineral fiber-based mats, in particular glass or rock fibers, which comprises:
| 10-24-2013 |
| 20130295809 | HEAT RESISTANCE USING TITANIUM DIOXIDE NANOFIBERS - A composite structure includes a resin and a plurality of titanium dioxide fibers provided in the resin. | 11-07-2013 |
| 20130295810 | BASE FABRIC FOR AIR BAG - The present invention provides a base fabric for an air bag where color shading after application of water drops hardly happens even when a water-dispersed polymer solution mixed with a pigment being dispersed in water is applied to a woven/knitted fabric in small amount. | 11-07-2013 |
| 20140065908 | FIBER-REINFORCED COMPOSITE MATERIAL - A fiber-reinforced composite material which comprises Lyocell-based carbon fiber and polymer resin is provided. The fiber-reinforced composite material has excellent physical properties, including low thermal conductivity, excellent interfacial adhesion and excellent strength, compared to fiber-based composite materials prepared using conventional polyacrylonitrile-based carbon fiber, pitch-based carbon fiber or the like. In addition, the fiber-reinforced composite material is environmentally friendly and has low production costs compared to fiber-reinforced composite materials comprising conventional rayon-based carbon fiber produced using a highly toxic carbon disulfide solvent. | 03-06-2014 |
| 20140065909 | CARBON COMPOSITE MATERIAL - A carbon composite material which comprises Lyocell-based carbon fiber and a carbon matrix is provided. The carbon composite material has excellent physical properties, including low thermal conductivity, excellent interfacial adhesion and excellent strength, compared to carbon composite materials prepared using conventional polyacrylonitrile-based carbon fiber, pitch-based carbon fiber or the like. In addition, the carbon composite material is environmentally friendly and has low production costs compared to carbon composite materials comprising conventional rayon-based carbon fiber produced using a highly toxic carbon disulfide solvent. | 03-06-2014 |
| 20140106637 | FLAME RESISTANT COMPOSITION, FIBER REINFORCED POLYURETHANE BASED COMPOSITE COMPRISING THE FLAME RESISTANT COMPOSITION AND THE USE THEREOF - The present invention relates to a flame-resistant composition, a fiber-reinforced polyurethane composite comprising the flame-resistant composition and the use thereof. In particular, the invention describes a flame-resistant polyurethane-composite forming composition and a combustion-modified, fiber-reinforced polyurethane composite comprising the flame-resistant polyurethane-composite forming composition, for applications in vehicles and for building products. The invention also describes a long-fiber injection molding process for the preparation of the combustion-modified, fiber-reinforced polyurethane composite. The fiber-reinforced polyurethane composite of the invention show improved fire-reaction behaviour, measured as Limiting Oxygen Index (LOI), and a reduced smoke production. | 04-17-2014 |
| 20140154941 | Unitary graphene matrix composites containing carbon or graphite fillers - A unitary graphene matrix composite comprising: (a) a unitary graphene matrix containing an oxygen content of 0.001% to 10% by weight, obtained from heat-treating a graphene oxide gel at a temperature higher than 100° C. and contains no discrete graphene platelets derived from the graphene oxide gel; (b) a carbon or graphite filler phase selected from carbon or graphite fiber, carbon or graphite nano-fiber, carbon nano-tube, carbon nano-rod, meso-phase carbon particle, meso-carbon micro-bead, exfoliated graphite flake with a thickness greater than 100 nm, exfoliated graphite or graphite worm, coke particle, needle coke, carbon black or acetylene black particle, activated carbon particle, or a combination thereof. The carbon or graphite filler phase is preferably in a particulate, filamentary, or rod-like form dispersed in and bonded by the unitary graphene matrix. This composite exhibits a combination of exceptional thermal conductivity, electrical conductivity, mechanical strength, surface hardness, and scratch resistance. | 06-05-2014 |
| 20140273691 | FABRIC OF COMPOSITE MATERIAL AND METHOD OF PREPARING THE SAME - A fabric of composite material has a fabric body and a cooling stuff. The fabric body is woven by multiple fibers. The cooling stuff is coated on the fabric body and combined with the fabric body, and has a stuff body and multiple ceramic particles. The stuff body infiltrates within the fabric body. The ceramic particles are distributed within the stuff body. The ceramic particles have high thermal conductivity and high coefficient of thermal radiation. Therefore, the fabric can provide sufficient cooling effect for a portable electronic product. | 09-18-2014 |
| 20140349535 | Waterproof Breathable Trilobal Laminated Stretch Fabric - A woven polyester fabric with a trilobal construction and a 5% elastane content, and an outer laminated layer of polyurethane, with 250 GSM insulation. The fabric and clothing made from the fabric is waterproof, breathable, stretchable in 4 directions, and insulating to −50 degrees Celsius. The fabric meets the standards defined by the testing standards ASTM D2034-2009; ASTM D1424-2009: ASTM D434-1995; ASTM D4970/D4970M-2010cl, ASTM D3107-07(R2011), AATCC 127, and JIS L1099 Method B-1:2006. | 11-27-2014 |
| 20140349536 | Carbon Nanotube Heat Storage Textile, And Preparation Method Thereof - A heat storage textile. In one embodiment the textile is prepared by applying a coating containing carbon nanotubes to a side of a textile. The coating solution comprises, by weight, at least 0.1% carbon nanotubes, 0.01% dispersant, 9.89% resin binder, and 10 solvent. The carbon nanotube surface may be modified to improve the adhesive properties. The carbon nanotubes can be single wall nanotubes, multi-wall carbon nanotubes such as a double wall nanotube (DWNT), or thin multi-wall nanotubes. The coating may cure while transferring the coated heat storage textile with a constant velocity at a room temperature or in a heated chamber. | 11-27-2014 |
| 20150140885 | INSULATING TAPE MATERIAL, METHOD FOR PRODUCTION AND USAGE THEREOF - An insulating tape material, a method for production and usage thereof, for producing electrical insulation paper such as mica paper, which is contained in thermally conductive insulating tapes that are used for high-voltage insulation, for example. The insulating tape material has fiber reinforcement by means of a fabric, wherein the meshes of the fabric are filled by a particle composite which is preferably thermally conductive. | 05-21-2015 |
| 20150368482 | COMPOSITIONS AND METHODS FOR THE PROTECTION OF SUBSTRATES FROM HEAT FLUX AND FIRE - A flame or heat flux protective coating composition, which includes a dispersion of fiberglass, hollow glass spheres, or a combination of both in silicone. A flame or heat flux protective sheet, which includes hollow glass spheres dispersed in silicone in a sheet form or fiberglass and silicone in a sheet form, wherein the fiberglass is dispersed in the silicone or the fiberglass is a woven cloth coated with the silicone is also presented. Articles incorporating the flame or heat flux protective coating or sheet form and methods for coating an article with the flame or heat flux protective coating composition are also presented. | 12-24-2015 |
| 20160186061 | FLAME RETARDANT COMPRISING GRAPHENE OXIDE DOPED PHOSPHORUS ON THE SURFACE - The present invention relates to a flame retardant comprising graphene oxide wherein phosphorus is doped on the surface and a preparation method thereof, and more specifically relates to a technique relating to a flame retardant, which dopes phosphorus component having flame retardance in a very high rate through a simple method, based on the graphene oxide, a form wherein graphene which is difficult to be synthesized chemically is oxidized. When coating the flame retardant on a subject such as fabric, since it forms a layer preventing the transfer of heat in combustion, there are advantages that it can effectively prevent fire without a change of the surface, except for a little shrinkage, has the remarkable durability without forming any toxic material which can be harmful to a human and environment, and it can be mass-produced with low price, and it can be applied to the various industrial fields. | 06-30-2016 |
| 20190145571 | INSULATING MATERIAL AND DEVICE USING INSULATING MATERIAL | 05-16-2019 |
