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 fabric having a first side and a second side and comprising weft yarns and warp yarns woven together in pattern. At least some of the weft, or warp, yarns float over a number of warp yarns, or weft yarns, and below a number of warp yarns, or weft yarns, to provide weft, or warp, over portions on the first side and under portions on the second side. The under portions and/or over portions of the yarns form loops. At least some of the yarns that form the loops are conjugate yarns comprising a plurality of filaments that are separable, i.e., splittable into sub-filaments. The loops of the conjugate yarns extend for a length of at least three adjacent warp, or weft, yarns.

An object of the present invention is to provide a shoe having excellent comfort. The present invention provides a shoe including an upper material that is partially or fully formed of a fiber sheet, wherein the fiber sheet exhibits specific tensile characteristics at least in one direction.

A fabric laminate used as a reinforcing base material of a fiber-reinforced composite is constituted by laminating fabrics having warp yarns and weft yarns. Each warp yarn has a diameter-changing portion, in which the diameter of the yarn gradually changes in the yarn longitudinal direction in the vicinity of one end in the yarn longitudinal direction of the warp yarn.

A warp-directional stretch fabric that defines two right faces and is formed from warp yarns defined by a nylon and fill yarns defined by an aramid. The fabric can be incorporated into a toothed belt, for example a transmission belt, to produce a belt that has enhanced structural and resistance capabilities while capable of being produced at a lower cost than prior art belts. A method of producing an improved toothed belt including the fabric is also provided.

A woven fabric that includes a plurality of warp yarns and a plurality of stretch weft yarns. In one embodiment, all of the weft yarns have the same shrinkage ratio and same size of yarn count, and the repeat intersection points on the weft yarns are either 61 or 131. The weft yarns in the 61 pattern alternate with the weft yarns in the 131 pattern, with two 61 weft yarns followed by one 131 weft yarn. This results in a woven fabric that performs like a knitted fabric but with the look of woven denim when the warp yarns are indigo dyed.

Provided is a compression garment formed of a stretchable woven fabric with a uniform elasticity, such as denim. A circumferential portion of the garment surrounds a wearer's body part and is characterized by different degree of stretching but the same circumferential compressive forces when worn by a wearer, at various axial locations due to geometric cuts made to the fabric to form one or more fabric panels, each of which extend along the entire length of the circumferential portion. The compressive forces, degrees of stretching and circumferential lengths of fabric, are calculated using formulas and algorithms that take into account various factors relating to the fabric and the garment being formed.

In a woven fabric all warp and weft yarns are elastic, all weft and warp yarns have a stretchable core comprising a first elastic fiber and a second fiber that is less elastic than said first fiber, and the elasticity of the fabric in warp direction is at least 25% and elasticity of the fabric in weft direction (E.sub.weft) is at least 30%, preferably at least 40%.

A 0 unidirectional yarn prepreg and a preparation method are disclosed. The 0 unidirectional yarn prepreg has high-strength filaments which are arranged in parallel to each other in an axial direction X of a winding roller around which unidirectional yarn prepregs are wound and a resin is impregnated. The method includes steps of: (i) weaving a fabric using a thermoplastic film tape as a warp and using high-strength filaments as wefts; and (ii) performing thermal compression on the woven fabric at a temperature in which the warp is melted. Also, a multiaxial prepreg composite material is prepared by simultaneously and continuously supplying the 0 unidirectional yarn prepreg A prepared as described above method and a 90 unidirectional yarn prepreg B prepared by a conventional warping method to a thermal compression roller, and performing thermal compression thereon.

Disclosed is a fabric having a first side and a second side, that is provided at least on part of the first side with a pattern of protrusions, wherein the protrusions comprise an expanded heat-expanding material, namely a heat-expanding material that has been expanded by heating. A polymeric layer is provided to the woven fabric to coat at least part of the protrusions. Also disclosed is a process for the production of the fabric and a garment comprising the fabric.