A brushed circular knitted fabric has double loops stacked with at least two kinds of synthetic fiber multifilaments, wherein at least one surface of the circular knitted fabric has undergone brush processing, and the FT index represented by the equation (T2/T1) [T1: thickness (of one layer) according to a method prescribed by JIS, T2: thickness according to the same method prescribed by JIS at a state where the fabric is folded in two] is 2.1 or greater. The brushed circular knitted fabric has resiliency feeling and stretchability suitable for use in a coat or jacket, and is excellent in physical properties such as pilling resistance and changes in dimensions with washing.

A pneumatic textile system capable of transforming from a two-dimensional structure to a three-dimensional structure under pneumatic pressure is provided. The pneumatic textile system includes a seamless knit fabric having a grid configuration defining a plurality of grid areas—a first of the plurality of grid areas having a tensile strength that is different from a second of the plurality of grid areas. A pneumatic bladder member is disposed along at least a portion of a boundary between adjacent ones of the plurality of grid areas and is inflatable to exert a force on the seamless knit fabric, wherein upon inflation of the pneumatic bladder member the force is exerted on the seamless knit fabric such that the first of the plurality of grid area assumes a shape different than the second of the plurality of grid areas resulting in a three-dimensional structure transformation.

A sterile knitted fabric is provided. The sterile knitted fabric is made by the following steps: First, a plurality of nano far infrared antibacterial yarns and a plurality of bamboo charcoal hollow yarns are provided. Next, the nano far infrared antibacterial yarns are interwoven with the bamboo charcoal hollow yarn by a circular knitting machine to form a grey fabric. Next, the grey fabric is through a scouring process to form a scoured fabric. Next, the scoured fabric is through a setting process. The scoured fabric is moved 25 meters per minute for the setting process.

An upper may include a knitted component having a first surface and a second surface. The knitted component may include at least one integrally knitted cushion region located on the second surface. The cushion region may include a plurality of non-planar structures that project away from the second surface of the knitted component by at least 1 mm, and the cushion region may be located in a rearfoot region of the upper.

A frictional power transmission belt includes a compression rubber layer having a frictional power transmission surface that is covered with a fabric. The compression rubber layer includes an inner rubber layer in contact with the fabric and an outer rubber layer on an outer peripheral side of the inner rubber layer. The inner rubber layer is formed of a cured product of a rubber composition including a surfactant as a hydrophilic plasticizer, an unsaturated carboxylic acid metal salt, and polyolefin particles.

A knit garment having a knit technical wire is disclosed herein. The knit technical wire has two interwoven knit layers, such that they form an exterior or outward surface and an interior or body-facing surface. In between the exterior and interior surfaces and are at least one strand of yarn. The yarn may be a TPU yarn. The knit technical wire is used instead of a conventional underwire. The garment may be a woman's bra or dress that may conventionally be made with an underwire.

The present disclosure provides an upper for an article of footwear. The upper may include a knit element defining a portion of at least one of an exterior surface of the upper and an opposite interior surface of the upper. The interior surface may define a void. A tongue and the knit element may have a common yarn, and the tongue may extend through a throat area of the upper. The tongue may comprise a lateral edge, a medial edge, and a forward portion. At least one of the lateral edge and the medial edge of the tongue may be unsecured to the knit element. The tongue and the knit element may comprise a common yarn at least at the forward portion of the tongue.

Provided is a weft-knitted fabric having excellent stretchability, and providing excellent comfort in a hot environment. The weft-knitted fabric contains non-elastic fibres and elastic fibres, and is characterised: by being formed of a mesh part where a stitch of a welt structure and a stitch of a knit structure are alternately repeated to complete one course, and the course having the same structural arrangement is employed once or continuously repeated twice, and a plain-knit part where a course of an all-knit structure is employed once or continuously repeated up to three times; and in that said mesh part and said plain-knit part are each alternately arranged in the longitudinal direction.

An upper may include a knitted component having an interior surface and an exterior surface. The knitted component may include at least one integrally knitted cushion region located on the interior surface in the rearfoot region. The cushion region may include a plurality of tubular rib structures that project away from the second surface of the knitted component, and within the rearfoot region, the plurality of tubular rib structures may extend vertically and parallel to a heel centerline of the upper.

An upper for an article of footwear may include a knitted component that includes a first zone, a second zone, and a third zone. Each of the first zone, the second zone, and the third zone may extend toward a collar area of the upper at least partially in a heel area of the upper. The second zone is located between the first zone and the third zone such that the second zone is located in a substantially central portion of the heel area. The second zone may include an elasticity that is greater than an elasticity of the first zone and also greater than an elasticity of the third zone.