A structure for use in a compressible resilient pad. The structure contains both axially elastomeric yarns and relatively inelastic yarns in various patterns. The structure has a high degree of both compressibility under an applied normal load and excellent recovery (resiliency or spring back) upon removal of that load.

A structure for use in industrial fabrics such as paper machine clothing and engineered fabrics. The structure contains both axially elastomeric yarns and relatively inelastic yarns in various patterns. The structure has a high degree of both compressibility under an applied normal load and excellent recovery (resiliency or spring back) upon removal of that load.

A method for making tubular fabrics is provided. The method includes using metallized yarns including at least one ribbon which is less than 0.7 mm thick, the ribbon being preferably spiral-wound with at least one support thread. The method also includes using non-metallized main yarns, as well as making a warp beam including the metallized yarns and said main yarns, the warp beam having a linear thread density preferably higher than 40 threads/cm. The method may also include a step of weaving in which a tubular fabric is made by means of the beam warp with the metallic yarns arranged exclusively on the warp.

A woven textile is provided, including at least two blocks connected with each other. Each of the two blocks has an upper layer and a lower layer which are woven and fixed by a binding thread, and the upper layer and the lower layer are respectively composed of woven braids which extend meanderingly. The textile braid of the upper layer and the textile braid of the lower layer define a plurality of meshes, and the textile braids of the two blocks have different diameters so that the meshes on the two blocks have different dimensions.

Composite fibers having a structure comprising a core component and sheath component, wherein each of the core component and the sheath component independently include a polymer and a disclosed cooling composition. In various further aspects, this application pertains to single-covered yarn including a core yarn comprising a disclosed composite fiber including a core component and a sheath component, and a first fiber including a cellulosic fiber, such that the first fiber is wrapped or surrounds the core fiber. In still further aspects, this application pertains to a woven or knit fabric including a disclosed single-covered yarn.

A woven fabric is provided wherein pile weft yarns, auxiliary weft yarns, and warp yarns are weaved in the front face and back face of the fabric according to a pattern, and wherein at least one of the pile weft yarns and/or auxiliary pile yarns is synthetic elastomeric yarn and at least one of the same is cotton core-spun elastomeric yarn.

A textile is provided that includes a plurality of warp yarns and a plurality of weft yarns woven together, the plurality of warp yarns each including an elastic warp filament and a non-elastic warp filament, and the plurality of weft yarns each including an elastic weft filament and a non-elastic weft filament. At least one of the elastic warp filament, the non-elastic warp filament, the elastic weft filament, and the non-elastic weft filament includes a hydrophobic material. The materials of the elastic warp filament, the non-elastic warp filament, the elastic weft filament, and the non-elastic weft filament are selected such that the textile has a high elastic stretchability in at least one of a weft direction and a warp direction. A garment including the textile, and methods for manufacturing the textile and the garment, are also disclosed.

A manufacturing method of a recycling nylon fiber includes steps as follows. A nylon fiber waste is provided, wherein the nylon fiber waste is an oiled nylon 6 fiber waste or an oiled nylon 66 fiber waste. A cutting step is performed, wherein a plurality of nylon fiber debris are formed. A washing step is performed, wherein an oil content of the nylon fiber debris is reduced to less than 0.22 wt %. A dehydrating and squeezing step is performed, wherein a plurality of nylon films are formed. A melting and granulating step is performed, wherein a plurality of recycling nylon particles are formed. A melting and spinning step is performed, wherein the recycling nylon fiber is obtained.

A fabric for reinforcing a power transmission belt including fibers of polyarylene sulfide and a belt utilizing the fabric. The fabric may have textured or elastic core wrapped stretch yarns in the longitudinal direction. Longitudinal yarns may include PPS and textured transverse yarns include nylon. Yarns may include blends of high performance fibers and nylon or other fibers.

A one-piece-vamp manufacture method includes: (1) weaving preparation: arranging different required raw material color yarn, hot melt silk and stretch yarn at a main color opening yarn feeding orifice, a match color opening yarn feeding orifice and a stretch yarn yarn feeding orifice; (2) weaving U shape tube fabric: a vamp machine weaving in an order of a starting opening, an outer toe cap, an outer shoe body, an outer heel, an outer shoe opening to an inner shoe opening, an inner heel, an inner shoe body, an inner toe cap; (3) stitching an inner toe cap stitch eyelet; (4) stitching the outer toe cap stitch eyelet; (5) forming a one-piece-vamp semifinished product; and (6) reshaping, setting and shape fixing.