The invention relates to a magnetically responsive scrim containing a scrim which contains a plurality of yarns and a magnetically responsive coating covering at least a portion of the yarns of the scrim. The magnetically responsive coating contains magnetically responsive particulate material and a binder, where the magnetically responsive coating is at least about 40% by weight magnetically responsive particulate material, and where the magnetically responsive coating has an areal density of at least twice the areal density of the scrim.

A flame retardant aid includes an amphoteric polymer compound having at least one of a specific cationic unit such as allylamine, and an anionic unit such as maleic acid, and a flame retarding agent composition including the flame retardant aid. A method of producing a flame-retardant fiber fabric includes treating a polyester fiber fabric using a flame retardant aid including a flame retardant component and the above amphoteric polymer compound, and drying the polyester fiber fabric.

In one embodiment a non-foamed thread is formed by extruding a mixture with a plastic material and a blowing agent. The non-foamed thread is arranged into a sole component and then heated to activate the blowing agent and cause the threads to foam. In some cases, the non-foamed thread is knitted together.

The invention relates to a knit fabric. There is a need for knit fabrics made that are comfortable to wear, have good washability and high softness. Good washability implies both dimensional stability of the fabric and maintaining positive surface aspects such as hairiness, pilling and fiber splice even after several washings. This object is solved according to the invention by a knitted fabric made from at least one yarn which consists of or contains lyocell filaments. The resulting fabric has a high wearing comfort and superior mechanical qualities.

The article (100) comprises a textile body (101), a conductive region (103) and an embossing material (105). The embossing material 105 causes the conductive region (103) to adopt and retain a raised, embossed, profile (107) that projects outwardly from a surface (102) of the textile body (101). The method comprises applying heat and/or pressure to the article (100) to cause the article (100) to adopt the embossed profile (107). The raised, embossed, profile (107) is retained upon release of the applied heat and/or pressure as the embossing material (105) has bonded to the textile body (101) due to the application of heat and/or pressure.

The present invention relates to a fiber-containing structure comprising an interwoven and welded base material and a welded elastomer layer, and at least one part of the base material and the welded elastomer layer are welded to each other. The invention also relates to a method for manufacturing the fiber-containing structure and a shoe structure containing the fiber-containing structure.

A method for manufacturing gloves includes adding a thickening agent (B) having an oxyethylene group content of 210.sup.2 mol/g or less to an aqueous urethane resin composition containing an aqueous urethane resin (A) having an acid value of 0.01 mgKOH/g or higher in a range of 0.01 to 30 parts by mass relative to 100 parts by mass of the aqueous urethane resin (A) to obtain a thickened liquid; and (i) immersing fiber-knitted gloves in the thickened liquid and subsequently performing coagulation in a coagulation bath (C) containing a metal salt (c-1) or (ii) immersing fiber-knitted gloves previously immersed in a coagulation bath (C) containing a metal salt (c-1) in the thickened liquid to perform coagulation. As the thickening agent (B), a cellulose thickening agent, an acryl thickening agent, or a urethane thickening agent can be used. Furthermore, as the metal salt (c-1), calcium nitrate can used.

A polyurethane-coated fabric product, particularly a polyurethane-coated glove, has a fabric liner and, on the surface of the liner, a microporous foam layer comprising polyurethane and a bifunctional sulphur-containing alkoxysilane. The microporous foam layer exhibits increased abrasion resistance, durability and increased resistance to water penetration. Preferably, the bifunctional sulphur-containing alkoxysilane is bis(triethoxysilylpropyl)tetrasulphane. The polyurethane-coated fabric product is manufactured by a method that includes providing a fabric liner, applying a io coating to at least part of the surface of the liner, wherein the coating comprises a solution, in a polar aprotic solvent, of a polyurethane resin and a bifunctional sulphur-containing alkoxysilane, treating the coated fabric with water, thereby causing the polyurethane to coagulate and form a microporous foam layer on the fabric liner, and drying the polyurethane-coated fabric is product.

A method for producing a laminate including a substrate and a rubber layer, the rubber layer having a thickness of 200 m or more from the surface of the substrate, the method including contacting the substrate in a heated state with a polymer latex having a viscosity of 2,000 to 100,000 mPa.Math.s at 25 C. to thereby coagulate the polymer in contact therewith to form the rubber layer.

A macroporous-structured polymeric aerogel, and methods for making and using the same, having a polymeric matrix that includes macropores is disclosed.