Abstract: Systems and methods for weaving helical carbon fabrics with minimum fiber crimp are provided herein. In various embodiments, small denier natural or synthetic yarns are used in the warp direction to interlace the carbon fiber wefts with minimum deformation. Specific weave designs are used in combination with the small denier yarn to maintain the primary carbon fiber weft and warp un-crimped.

Abstract: A fabric material including a plurality of strands of a warp yarn positioned in a warp direction, a plurality of strands of a first filling yarn positioned in a filling direction, each being impregnated by silver ions, and a plurality of strands of a second filling yarn positioned in the filling direction, each being impregnated by copper ions. The strands of said warp yarn are woven with those of the first and second filling yarns to form a face side and a back side, and the strands of the first and second filling yarns are woven alternately relative to one another with the strands of said warp yarn in said filling direction. The fabric material may be a satin, plain or twill pattern, and can be used as a bed sheet having a low coefficient of friction, wickability, absorbency, and “cool to the touch” properties.

Abstract: A fabric consisting of a cellulose mixed ester fiber having an appropriate strength, fiber diameter, uniformity of fineness, and Tg, is used. A fiber consisting of 80 to 95 wt % of said cellulose mixed ester and 5 to 20 wt % of one or more water-soluble plasticizers selected from the group of polyethylene glycol, polypropylene glycol, poly(ethylene-propylene) glycol, and end-capped polymers produced from them, is produced and said water-soluble plasticizers are removed by aqueous treatment to improve the heat resistance and strength, thereby providing a fabric having beautiful appearance achieved by color development properties and uniform fineness.

Abstract: Compositions having good wrinkle resistance and other properties when made into garments an be made from an ethylene multi-block copolymers. The resulting fabrics and garments often have good chemical resistance, heat-resistances, and are dimensionally stable.

Abstract: A union fabric comprising 6 to 60% by weight of a polyester fiber (A), 35 to 85% by weight of a halogen-containing fiber (B), and 5 to 55% by weight of a cellulose fiber (C) in which fabric the warp comprises weaving yarn containing the polyester fiber and the weft comprises flameproof chenille yarn and other weaving yarn, with the chenille yarn containing 10 to 70% by weight of halogen and 1 to 35% by weight of a flame retardant consisting of a metal compound, and in which fabric the content of the warp-constituting weaving yarn containing the polyester fiber is 20 to 40% by weight and those of the weft-constituting flameproof chenille yarn and the weft-constituting other weaving yarn are 35 to 70% by weight and 10 to 45% by weight respectively. This union fabric is excellent in design, texture, comfortableness in use.

Abstract: A flame retardant union fabric obtained by combining (A) 30 to 70% by weight of a fiber comprising as a main component a flame retardant halogen-containing fiber made of a composition comprising 100 parts by weight of an acrylic copolymer of 30 to 70% by weight of acrylonitrile, 30 to 70% by weight of a halogen-containing vinyl monomer and 0 to 10% by weight of a vinyl monomer copolymerizable with them, 10 to 30 parts by weight of an antimony compound and 8 to 30 parts by weight of a zinc stannate compound, with (B) 70 to 30% by weight of a cellulosic fiber. The flame retardant union fabric shows a high flame resistance which passes the M1 class of NF P 92-503 burning test in France even after the post-treatment.

Abstract: The present invention relates to cellulosic substrates with reduced absorbent capacity having the capability to wick liquids, as well as to methods of manufacturing such cellulosic substrates. The cellulosic substrates provided by the present invention comprise an inside and an outside connected to the inside. The inside comprises cellulosic fibers and has a reduced absorbent capacity, and the outside comprises cellulosic fibers. The outside may have a reduced absorbent capacity and may have an absorbent capacity higher than the inside. The cellulosic substrate is capable of wicking liquid contacting the inside of the substrate to the outside of the substrate.

Abstract: Electrostatic dissipating fabrics incorporating spun yarns which include conductive staple fiber constituents incorporated within the spun yarns, and a grid of electrically conductive filament yarns. The fabrics may be of either a woven or knit construction. The conductive fiber constituents are dispersed at an effective concentration to establish a network of charge carrying junctions within and between the individual yarns and between the conductive filament yarns. The large number of junctions between the yarns facilitates the dissipation of static electricity between regions of a garment formed by the yarns. In particular, the fabric retains a high degree of conductivity across seams within the garment even after multiple washings.

Abstract: The present invention relates generally to substrates that exhibit useful, auto adaptable surface energy properties that depend on the environment of the substrate. Such surface energy properties provide relatively high advancing and receding contact angles for liquids when in contact with the target substrate surface. The substrates exhibit low surface energy quantities of at most about 20 millijoules per square meter (mJ/m2) at a temperature of about 25 degrees C. and a surface energy greater than about 20 mJ/m2 at, or with exposure to, a temperature of about 40 degrees C. More specifically, encompassed within the present invention are textile substrates having this highly desirable unique surface energy modification property and which exhibit wash durable oil and water repellency and stain release features. Novel compositions and formulations that impart such surface energy modifications to substrates are also encompassed within this invention, as well as methods for producing such treated substrates.

Abstract: Electrostatic dissipating fabrics incorporating spun yarns which include conductive staple fiber constituents incorporated within the spun yarns. The fabrics may be of either a woven or knit construction. The conductive fiber constituents are dispersed at an effective concentration to establish a network of charge carrying junctions within and between the individual yarns. The large number of junctions between the yarns facilitates the dissipation of static electricity between regions of a garment formed by the yarns. In particular, the fabric retains a high degree of conductivity across seams within the garment even after multiple washings.

Abstract: Specific fabric articles exhibiting very low air and/or gas permeability (even upon application of high inflation pressures) and very high tear strengths are herein disclosed and claimed. Such a specific fabric also permits the incorporation of discrete openings (through cutting, for example) through which air and/or gas introduced by an airbag inflation canister will travel. Such a specific fabric acts as a barrier to the complete introduction of high pressure inflation gases into an airbag cushion, thereby permitting a more controlled, safer inflation upon the occurrence of a collision event. Thus, the specific inventive fabric permits movement of inflation gas and/or air substantially solely through the openings within the fabric and not through the interstices between the individual fiber constituents.

Abstract: Specific fabric articles exhibiting very low air and/or gas permeability (even upon application of high inflation pressures) and very high tear strengths are herein disclosed and claimed. Such a specific fabric also permits the incorporation of discrete openings (through cutting, for example) through which air and/or gas introduced by an airbag inflation canister will travel. Such a specific fabric acts as a barrier to the complete introduction of high pressure inflation gases into an airbag cushion, thereby permitting a more controlled, safer inflation upon the occurrence of a collision event. Thus, the specific inventive fabric permits movement of inflation gas and/or air substantially solely through the openings within the fabric and not through the interstices between the individual fiber constituents.

Abstract: Bi-directional and multi-axial fabrics, fabric composites, ballistically resistant assemblies thereof, and the methods by which they are made. The fabrics are comprised of sets of strong, substantially parallel, unidirectional yarns lying in parallel planes, one above the other, with the direction of the yarns in a given plane rotated at an angle to the direction of the yarns in adjacent planes; and one or more sets of yarns having lower strength and higher elongation interleaved with the strong yarns.

Abstract: The chambray fabric of the present invention is comprised of a warp of one type of yarn and a filling of a second type of yarn, one yarn type being comprised of cellulosic fibers and the second yarn type being comprised of synthetic fibers. The yarns are first woven into a greige fabric that is then preferentially dyed to achieve the desired chambray appearance. In a preferred embodiment, the warp yarns are polyester and the filling yarns are cotton, with the polyester being preferentially dyed. The process described herein results in greater production efficiency and ease of manufacture and produces a fabric having superior characteristics in terms of stretch, strength, and tear resistance.

Abstract: Fabrics having enhanced allergen barrier capabilities are described. The fabrics are woven and calendered, and desirably face finished to provide lightweight, thin fabrics having good aesthetic properties. The fabrics also have good moisture vapor transport characteristics and superior allergen barrier capabilities, and in particular, superior barrier capabilities for cat dander allergen (representing smaller allergen particle size), as well as dust mite allergen. Protective coverings made from the fabrics and methods for their production are also described.

Abstract: Essentially inelastic backing material for medical purposes, characterized in that the backing material has an addition of high-strength fibers, multi-strand yarns, mixed multistrands or filaments having an ultimate tensile stress strength of at least 60 cN/tex, preferably from 80 to 500 cN/tex, the high-strength fibers, multi-strand yarns, mixed multistrands or filaments having a water absorption of less than 10%, preferably less than 5% and, with particular preference, less than 3% and the high-strength fibers, multi-strand yarns, mixed multistrands or threads giving the backing material an ultimate stress strength of at least 50 N/cm, preferably from 60 to 450 N/cm and, with particular preference, from 65 to 250 N/cm, and in that the backing material is coated at least partially on at least one side with a hotmelt adhesive composition.

Abstract: The present invention relates to a process for producing a textile-elastomer composite. The inventive procedure involves (a) producing an elastomer composition of at least three ingredients (an anionically-stabilized waterborne polymer dispersion, an acid-generating chemical, and a cloud-point surfactant); (b) applying the composition onto a porous textile substrate; and (c) heating said coated fabric to cause coagulation of the elastomer composition over the fabric substrate and to dry the resultant composite without destroying the coagulated structure. The resultant composite obtains a suppleness and appearance that is similar to that of leather, while exhibiting improved resistance to ultraviolet radiation and hydrolysis and other types of polymer degradation. The composite may be utilized as upholstery fabric in furniture or in automobiles, in apparel, and the like. The particular composites produced are also contemplated within this invention.

Abstract: A coated woven textile fabric is disclosed which is formed of synthetic yarns of more than one denier preferably synthetic filamentary yarns of differing deniers. A polymeric coating such as polyurethane is layered on at least one side thereof, but may also be provided on both sides. The combination of yarns of different deniers provides a superior adhesion surface for the polymeric coating. The yarns and the polymeric coating are preselected respectively in deniers and thickness so as to render the fabric substantially impermeable to fluid under pressure, while maintaining superb packageability and antiblocking properties for use in vehicle occupant restraint systems. A flexible lightweight air bag for receiving and containing fluid under pressure for use in a vehicle air restraint system is also disclosed, incorporating the woven textile fabric of the invention.

Abstract: A food wrapping cloth comprises a fabric serving as a material and formed of a warp and a weft; the warp being composed of a cellulosic fiber yarn and a twist yarn formed by twisting an antibacterial yarn with a cellulosic fiber yarn, the antibacterial yarn being formed by depositing an antibacterial metal on a synthetic resin film and cutting the antibacterial metal deposited on the synthetic resin film to be a fine and long yarn; and the weft being composed of a cellulosic fiber yarn.

Abstract: The invention relates to a fabric for the production of clothing from at least two different threads. For the creation of such a fabric, which has on one side substantially the properties determined by one thread and on the other side substantially the properties determined by the other thread or threads and has from each side substantially the visual appearance of a homogeneous fabric, according to the invention the fabric consists of an upper fabric and a lower fabric, the upper fabric being formed exclusively from one thread and the lower fabric exclusively from the other thread or threads, while the upper fabric is connected to the lower fabric by the attachment in places of individual threads of the lower fabric to threads of the side of the upper fabric adjacent the lower fabric, or the upper side of the fabric is formed mainly from one thread and the lower side of the fabric is formed mainly from the other thread or threads.

Abstract: Melamine fibers and cellulose fiber combinations are dyed with certain dyes such that the cellulose fiber is dyed by the dyes but the melamine fiber is substantially undyed. When in fabric form, a chambray appearance is given.

Abstract: A method of manufacturing a fabric so that it has a stony-washed appearance. The method includes the steps of: (1) providing a special hairy warp yarn, (2) dying the special hairy warp yarn, and (3) weaving the dyed special hairy warp yarn with a natural weft yarn so as to produce a fabric having a stony-washed appearance.

Abstract: A textile substrate for seat covers, a woven fabric or a knitted fabric, especially Raschel or Malimo, contains at least 40% by weight of wool and at least 15% by weight of ramie, but always more than 85% by weight of both taken together. The substrate can consist exclusively of wool and ramie but can also contain further constituents, preferably of animal or vegetable origin such as cotton, linen, hemp or else natural rubber. To obtain antistatic properties, it can contain incorporated metal threads. Minor proportions of synthetic fibres, for example polyester, are also possible. The substrate can be formed for example as a woven fabric with a blend yarn (1) of 80% by weight of wool and 20% by weight of ramie in the warp and ramie threads (2) in the weft.