Abstract: An aerogel laminate roll is prepared by winding an aerogel laminate around a roll core, the aerogel laminate comprising a support and an aerogel layer disposed on the support and having a thickness of 200 ?m or less.

Abstract: A composite sheet including at least a textile structure and a polyetherimide (PEI), the latter impregnating and densifying the textile structure, the sheet having a porosity of between approximately 3% and approximately 8% by mass of acetone sorption, and preferably between approximately 4% and approximately 5%, as measured by the acetone uptake method; the manufacturing method including continuous or semi-continuous molding; the sheet being used inter alia as a skin of a foamed structure made from PEI.

Abstract: A honeycomb thermal insulation structure may comprise a first facesheet, a second facesheet, and a honeycomb core between the first facesheet and the second facesheet. The honeycomb core may include a plurality of honeycomb unit cells each composed of walls having a height and spaced by a distance. The walls of the honeycomb cells may have perforations. The honeycomb thermal insulation structure may further comprise a non-convective gas loaded in the honeycomb unit cells between the walls. A flow of the gas through the perforations may be substantially absent.

Abstract: A laminated structure has a first layer formed from a fiber reinforced plastic, a second layer formed from a fiber reinforced plastic and arranged opposed to the first layer, a first core layer formed from a first resin foam and arranged between the first layer and the second layer, and a second core layer formed from a second resin foam and arranged between the first core later and the second layer. The first resin foam has a higher flame resistance than the second resin foam. A laminated structure having flame resistance and high strength enough to endure a bird strike or the like at the same time can be manufactured at relatively low manufacturing cost.

Abstract: One variation includes a composite material and method of manufacture thereof wherein a composite material may be fabricated from a finishing, a porous film, a weave, a foam, and a bonding agent, wherein the finishing at least partially overlays the porous film, wherein the porous film at least partially overlays the weave, wherein the weave at least partially overlays the foam, and wherein the porous film comprises high density polyethylene.

Abstract: Composites comprising aerogel materials are generally described. Layered aerogel composites may be of great utility for a wide variety of applications including lightweight structures, ballistic panels, multilayer thermal and acoustic insulation, spacecraft reentry shielding, supercapacitors, batteries, acoustic insulation, and flexible garments. Layered aerogel composites may be prepared by combing layers of fiber-containing sheets and multisheet plies with aerogel materials. Composites comprising mechanically strong aerogels and reticulated aerogel structures are described. Various nanocomposite aerogel materials may be prepared to facilitate production of composites with desirable functions and properties.

Abstract: A new orthopedic prayer mat proposed, whereas the new orthopedic prayer mat has a multiple layered structure. The top layer is made from microfiber which is antimicrobial, anti-molding, water-resistant, anti-dust and heat-resistant. The bottom layer is an anti-slip layer to prevent the user from physical injury in any situation while using the mat, and a soft polyurethane layer and an anti-fatigue layer or a hard polyurethane layer are arranged between the top microfiber layer and the bottom anti-slip layer in order to absorb pressure pressure and providing support, and the soft and hard polyurethane layer are combined at an angle to adjust the ratio of the weight-absorption and bearing to form the orthopedic prayer mat. Further the angle between the layers is tailored for users according to user's weight, height, body structure type and healthy conditions.

Abstract: A multi-layered material and a method for making the same are provided. The multi-layered material includes a first foamed layer, a substrate, a second foamed layer, and a surface layer. The first foamed layer has a plurality of first cells. The substrate is a fabric. The second foamed layer has a plurality of second cells. The foaming method of the second foamed layer is different from that of the first foamed layer. The size of the second cells is different from that of the first cells. The variation in size of the second cells is different from that of the first cells. The surface layer is disposed on the second foamed layer. Thus, when the multi-layered material is used as a surface cover of a ball, it can provide excellent resilience and control, and improve manufacturing efficiency.

Abstract: A polychloroprene-free wetsuit and material is described consisting of a class of copolymers or a physical mix of polymers consisting of materials with both thermoplastic and elastomeric properties to produce thermoplastic resin pellets. The non-toxic thermoplastic resin pellets are mixed with additives and a blowing agent to produce thermoplastic elastomer closed-cell foam for use in wetsuits. Depending on the wetsuit application, the density of the thermoplastic elastomer foam may vary. In many wetsuit applications low densities such as less than 0.25 grams/cubic centimeters are desirable.

Abstract: The waterproof/breathable moisture transfer liner for a snowboard boot includes an inner liner selected from technically advanced fabrics which are carefully selected. A series of layers are provided outside the inner liner including foam material layers, breathable membranes, a supportive mesh or a moldable foam, and an outer shell fabric. The applicability of the liner to alpine, cross country and hiking boots, along with appropriate variations for each application.

Abstract: Components are disclosed that include a first layer and a second layer affixed to the first layer or an optional third layer. At least one of the first layer and the second layer includes a gel foam.

Abstract: A method of joining at least two parts by adhesion is provided, the method including arrangement of a porous layer in the adhesive joint for taking up excess adhesive outside the adhesive joint as such. An element is also provided—including in particular a blade for a wind turbine—which is combined by adhesion of several parts, and wherein a porous layer is at least partially comprised in and at least partially protrudes from the adhesive joint between the parts and takes up excess adhesive outside the adhesive joint. The porous layer may be of a mesh-like structure or may have the structure of a sponge and may furthermore be entirely or partially pre-impregnated with adhesive.

Abstract: A multi-layered material and a method for making the same are provided. The multi-layered material includes a first foamed layer, a substrate, a second foamed layer, and a surface layer. The first foamed layer has a plurality of first cells. The substrate is a fabric. The second foamed layer has a plurality of second cells. The foaming method of the second foamed layer is different from that of the first foamed layer. The size of the second cells is different from that of the first cells. The variation in size of the second cells is different from that of the first cells. The surface layer is disposed on the second foamed layer. Thus, when the multi-layered material is used as a surface cover of a ball, it can provide excellent resilience and control, and improve manufacturing efficiency.

Abstract: A vibration-reducing material, comprising first and second elastomer layers and a reinforcement layer disposed between and generally separating the first and second elastomer layers. The reinforcement layer comprises a high tensile strength fibrous material. At least one of the first or second elastomer layers is manufactured as a foamed structure.

Abstract: A foamed composite armor laminate comprising interleaved combinations of ballistic resistant fabrics, and ceramic and/or metallic plates or sheets in a polymeric foam matrix. The foamed composite armor can be fabricated by inserting polymer powder or sheets between layers of fabric and/or ceramic or metallic sheets to form a laminated structure, heating this laminated structure under pressure to form a consolidated panel, and then foaming the polymeric portion of the consolidated panel in an autoclave or pressure vessel by saturating the polymeric portion with inert gas at elevated temperature, rapidly releasing the pressure and controllably cooling the laminated structure to ambient. Alternatively, pre-foamed panels can be laminated to fabric, ceramic and/or metallic sheets using adhesives or the like. Through proper selection of the various elements of the laminate, i.e.

Abstract: A carpet backing prepared from a polyurethane forming composition which comprises: (A) a polyisocyanate and (B) a mixture of a vegetable oil, a cross-linking agent, and a blowing agent.

Abstract: A method for the production of a breathable multilayer synthetic leather with a backing layer of a textile sheet, at least one intermediate layer applied to the backing layer and based on an at least to some extent open-cell whipped polyurethane foam and, applied full-surface to the at least one intermediate layer, an outer layer based on a polyurethane.

Abstract: The waterproof/breathable moisture transfer liner for a snowboard boot includes an inner liner selected from technically advanced fabrics which are carefully selected. A series of layers are provided outside the inner liner including foam material layers, breathable membranes, a supportive mesh or a moldable foam, and an outer shell fabric. The applicability of the liner to alpine, cross country and hiking boots, along with appropriate variations for each application.

Abstract: The present disclosure is directed to a composite material comprising one or more layers that are able to bind and deactivate chemical and/or biological agents. The first layer comprises a porous polymer substrate and a nucleophilic organic polymer cross-linked on the surface or within the pores of the porous polymer substrate using a carbamate cross-linking agent, wherein the cross-linked nucleophilic polymer comprises functional groups operative to form a covalent bond with a chemical or biological agent. The composite material is used to manufacture items of protective apparel including chemical-biological protective suits.

Abstract: A flame retardant, heat-insulated and moisture permeable coated fabric and its manufacturing method comprises the steps of: mixing the expandable graphite with the chemical containing phosphorus or nitrogen; mixing the mixture of the expandable graphite and the chemical containing phosphorus or nitrogen in the foam material to form the to-be-coated material; one-side or two-sides coating the to-be-coated material on the surface of the textile cloth by using wet coating to form at least one flame retardant, heat-insulated and moisture permeable coating which can permeate the textile cloth on the surface of the textile cloth. Thereby, the flame retardant, heat-insulated and moisture permeable coating can absorb heat and expand to form the porous structure, which not only can absorb heat and smoke simultaneously, but also can wrap the textile cloth to avoid the phenomena of secondary combustion and melting drip.

Abstract: A carpet backing prepared from a polyurethane forming composition which comprises: (A) a polyisocyanate and (B) a mixture of a vegetable oil, a cross-linking agent, and a blowing agent.

Abstract: Foaming of a resinous backing (2) to a glass sheet (1) is frustrated at the interface (3) with the glass by maintaining the glass sheet (1) cool during formation of the foam. The degree of foaming is nil at the interface (3) to effect a strong bond there, and increases progressively through the thickness of the foam body (2) away from the interface (3). The foam body (2) is backed by glass-fibre cloth (4) that is impregnated with the resin from which the foaming gas has been vented so as to bond the cloth (4) to the body (2) and to an outer aluminium foil (5). The glass sheet (3) may be a mirror, and may be replaced by a glass laminate (20;23) that includes a fused-powder coating (22;25) with or without an aluminium foil backing.

Abstract: A sound and heat insulation material for insulating buildings, motor vehicles, conduits, etc., is covered on at least one exterior surface with a material which reacts at a given temperature by foaming up, and which is difficult to ignite or inflammable. The exterior covering can be a sheet or fiber layer which is impregnated with the reactive material or coated with it. The fibers of the sound and heat insulation core layer can also be directly coated with the reactive material or be mingled with a variable proportion of foamable fibers. The sound and heat insulation element, which is difficult or impossible to ignite, has good insulating properties.

Abstract: The waterproof/breathable moisture transfer liner for a snowboard boot includes an inner liner selected from technically advanced fabrics which are carefully selected. A series of layers are provided outside the inner liner including foam material layers, breathable membranes, a supportive mesh or a moldable foam, and an outer shell fabric. The applicability of the liner to alpine, cross country and hiking boots, along with appropriate variations for each application.

Abstract: An anti-projectile barrier fabric which takes the form of a plural-layer assembly of two outer cloth-like layers, each preferably formed of a Nylon material, a pair of foam-like layers, each preferably formed of a cross-linked polyethylene material and disposed inwardly of, and bonded to, the two cloth-like layers, and a central, inner strand layer, preferably formed of elongate, cross-deployed strands of a non-stretchable material, such as Kevlar®, bonded to the confronting inner surfaces of the two foam-like layers.

Abstract: A carpet backing prepared from a polyurethane forming composition which comprises:

Abstract: A rug gripper for preventing the lateral movement of a rug on a floor comprising a continuous non-slip, non-adhesive foam layer having a top surface and a bottom surface. The top surface of the foam layer includes an adhesive layer for adhering the foam layer to the rug and the bottom surface of the foam layer engages the floor.

Abstract: A personal flotation device (PFD) with flotation foam is disclosed. A soft PFD, or a life jacket, is made up of a number of individual pockets in which flotation foam is enclosed to provide buoyancy. An additional layer of soft foam is fastened between the flotation foam and the material forming one side of each individual pocket to create a rounded edge that covers the harder edges of the flotation foam that cause user discomfort. To manufacture the soft PFD, two layers of material are first fastened to each other at their edges to form at least one open pocket. A soft foam layer is fastened by its edges to the exterior of one or both of the material layers, or simultaneously as the two material layers are fastened together. The open pocket is subsequently turned inside out to form an inverted pocket. This causes the material layer with the fastened soft foam layer to round out. Flotation foam is then inserted into the inverted pocket, which is subsequently closed.

Abstract: To a composite sheet in which on one or both surfaces of an open cell foam sheet fiber cloth is bonded, a conductive metal coating is provided so as to maintain the open cell of the foam followed by providing thereon a flame retardant composition, thereby a flame retardant conductive material suitable for a gasket material for electromagnetic wave shield is obtained.

Abstract: This invention provides air impermeable liquid-water resistant water vapor-permeable composites with enhanced water-vapor-permeable properties comprising: (a) a layer of a microporous polymer that is water-vapor permeable and which is liquid water-resistant in contact with (b) an air-impermeable, liquid water resistant, polymer layer that is permeable to water-vapor molecules, and (c) a third layer of a microporous, water vapor permeable, hydrophilic polymer present on the side of the air impermeable polymer layer opposite the microporous polymer (a).

Abstract: Heat, pressure, and glue are used to form a composite material in which a layer of U.S. Coast Guard approved flotation foam is located between a pair of fabric layers which are glued to the foam layer. The process of bonding the fabric layers to the foam layer is accomplished using both heat and pressure whereby a fabric covered, foam composite structure is provided. In a preferred embodiment, a flotation foam of the type which can be included in the calculation of flotation for a U.S. Coast Guard approved PFD is used, so the composite material can be used both as a fabric and as flotation in a U.S. Coast Guard approved PFD.

Abstract: A low-density, syntactic foam material is provided according to the invention. The syntactic foam material is prepared by mixing together a plurality of microballoons and a finely divided solid thermosetting resin. Fibers are also preferably incorporated into the material during processing to impart specific properties. The mixture is heated to allow the thermosetting resin to flow and wet the microballoons in the mixture. The mixture is then cured to set and crosslink the thermosetting resin to form the syntactic foam of the invention. The syntactic foam material has highly uniform properties and can be used in aerospace applications.

Abstract: A washable fabric covered mattress pad involves the combination of a layer of resilient foam with a layer of fabric, both of which layers are machine washable and dryable. The fabric, either manmade or natural fiber material, is flame laminated to one side of the layer of foam. The non-covered side of the foam layer frictionally engages a mattress for non-slip self-positioning of the mattress pad without requiring straps or other specific holding mechanisms. A second or additional layers of foam of varying physical characteristics and/or thicknesses may be added through heat bonding thereof in a predetermined pattern to the non-covered side of the first layer of foam. Such arrangement results in a fabric covered, completely washable self-positioning mattress pad, such as having a preferred thickness generally in a range of from about one to about four inches.

Abstract: The present invention includes a foam flame bonded fabric laminate that is wind-resistant, breathable, and supple along with a low cost process for producing it. The apparatus of the present invention comprises a foam bonding agent layered between fabrics or other materials where the foam possesses wind-resistant and breathable characteristics independent of the other layers. The process of the present invention involves two-step foam flame bonding with each step accomplished in a separate pass through a laminating device. In one embodiment, the first step includes lightly exposing a thin polymer foam (such as polyester polyurethane or polyether polyurethane) to a flame without preheating, then pressing it against the inner face of mesh or tricot. The second step includes more vigorously exposing the foam face of the foam-mesh or foam-tricot laminate to a flame, then pressing it against the inner face of a berber, pile, or fleece fabric.

Abstract: The present invention relates to combined insulation layers (ISS), preferably for use in shipbuilding, encompassing (i) an outer layer (AS) consisting of sheet metal, combined with (ii) a melamine layer (MSS), (iii) a sheet aluminum layer, (iv) a core layer of a hard foam material (HSS), coated on both sides with a phenolic resin prepreg (PNP).

Abstract: The invention relates to coating compositions for producing watertight, vapor-permeable and flame-retardant coatings, comprising a vinyl chloride copolymer or vinyl acetate/ethylene dispersion, flameproofing agents, foam stabilizer and optionally crosslinkers. The invention further relates to a process for producing watertight, vapor-permeable and flame-retardant coatings by mechanically foaming the coating composition to produce a stable foam, applying the foam to a woven, knitted or nonwoven support material on one or both of the sides and drying it at a temperature of from 60.degree. to 180.degree. C. and optionally, after drying, compressing the foam layer. The textile support materials coated with the coating composition are suitable for use in building protection and in the geotextile sector.