A woven chambray fabric, including a method and system for forming same includes a plurality of warp yarns, each warp yarn including natural fibers. The woven fabric includes a plurality of weft yarns interwoven with the plurality of warp yarns. Each weft yarn defines a weft yarn assembly that has a first weft yarn, a second weft yarn that extends alongside the first weft yarn, and a plurality of consolidation regions where the first weft yarn and the second weft yarn are coupled to each other. The first weft yarn is a spun staple yarn that includes natural fibers and the second weft yarn is a dyed continuous filament yarn. The second weft yarn is dyed a color that is different from a color of the first weft yarn and each warp yarn so as to define the woven chambray fabric.

A first fabric layer of a down-proof double-layer fabric has a plurality of first warps and a plurality of first wefts. A second fabric layer has a plurality of second warps and a plurality of second wefts. The first fabric layer and the second fabric layer have a plurality of coupling portions. In the coupling portions, the first fabric layer and the second fabric layer pass through each other repeatedly, and the first warps and the second warps are interlaced. The first warps, the first wefts, the second warps, and the second wefts are between 20 denier and 75 denier. The warp densities of the first fabric layer and the second fabric layer are between 336 pieces/inch and 456 pieces/inch, and the weft densities of the first fabric layer and the second fabric layer are between 220 pieces/inch and 380 pieces/inch.

A terry article includes a ground component including a plurality of ground warp yarns and a plurality of weft yarns, and a pile component disposed on at least one of a lower side and an upper side of the ground component. The pile component includes a first plurality of piles that extend away from the ground component along a vertical direction. The first plurality of piles are formed from a first set of pile yarns comprised of natural fibers and further define a first pile height. The pile component also includes a second plurality of piles that extend away from the ground component in the vertical direction. The second plurality of piles are formed from a set of continuous filament thermoplastic yarns and define a second pile height that is less than the first pile height.

A textile graphene component thermal fiber, or filament yarn, is able to be integrated into a textile, for example performance knits, woven and non-woven garments and linens, in order to conduct absorb or emit heat in order to regulate the body temperature for a user. The textile graphene component thermal fiber is able to absorb thermal energy and optimally conduct the thermal energy for extended periods of time. The textile graphene component thermal fiber includes a quantity of polymers, a first quantity of graphene, and a second quantity of graphene The quantity of polymers and the first quantity of graphene are mixed into a polymeric sheath. The second quantity of graphene and the quantity of thermally conductive substances are mixed into a thermal-conducting core. The polymeric sheath encloses the thermal conducting core in order to form the textile bi-component thermal fiber.

A long-term cooling material is provided. The long-term cooling material includes: a yarn having a defined denier of less than or equal to approximately 70 denier and a defined yarn count; and a cooling mineral core disposed on the yarn and comprising nanosilver, wherein the cooling material is a material knit on a 28 gauge or greater knitting machine. In some embodiments, the yarn count can be greater than or equal to approximately 36 rows per inch. The yarn can include Nylon 6. An article of manufacture is provided. The article can include a non-cooling material disposed to be positioned over two or more portions of the body; and a cooling material disposed to be positioned on the non-cooling material at selected locations indicative of areas of the body prone to overheating.

Percale weave sheeting has warp yarn and weft yarn. The percale weave sheeting has two surfaces. Both surfaces exhibit color consistency. The warp yarn and the weft yarn are a cross weave of cotton and polyester.

A first fabric layer of a down-proof double-layer fabric has a plurality of first warps and a plurality of first wefts. A second fabric layer has a plurality of second warps and a plurality of second wefts. The first fabric layer and the second fabric layer have a plurality of coupling portions. In the coupling portions, the first fabric layer and the second fabric layer pass through each other repeatedly, and the first warps and the second warps are interlaced. The first warps, the first wefts, the second warps, and the second wefts are between 20 denier and 75 denier. The warp densities of the first fabric layer and the second fabric layer are between 336 pieces/in and 456 pieces/in, and the weft densities of the first fabric layer and the second fabric layer are between 220 pieces/inch.sup.2 and 300 pieces/in.

Disclosed are a method, a device and/or a system of proliferating a thread count of a woven textile by simultaneous insertion within a single pick insertion event of a loom apparatus multiple adjacent parallel yarns drawn from a multi-pick yarn package. In one or more embodiments, multiple texturized polyester weft yarns of denier between 15 and 65 are wound on a single bobbin in a parallel adjacent fashion such that they may be fed into an air jet pick insertion apparatus and/or a rapier pick insertion apparatus of an air jet loom to weave a textile that has between 90 to 235 ends per inch cotton warp yarns and between 100 and 965 polyester weft yarns.

Embodiments described herein generally relate to textile structures comprising core spun yarns, and associated methods for manufacturing. One example embodiment is a textile structure including one or more layers of warp yarns interwoven with one or more layers of weft yarns, wherein at least one of the one or more layers of warp yarns and one or more layers of weft yarns include one or more core spun yarns.

The invention addresses the problem of providing a cloth and a textile product, which are extremely excellent in stretchability and sweat-absorbing and quick-drying properties and further have a natural material-like texture and appearance. As a means for resolution, for example, a cloth is obtained using a composite yarn containing a crimped yarn and a stretch fiber.