An article of footwear may include an upper and a sole structure secured to the upper. The upper has a knitted component formed of unitary knit construction that includes at least one gore region located in a heel region of the article of footwear. The gore region provides a contoured configuration to the knitted component. In a method of manufacturing, a knitted component may include a first gore region and a plurality of second gore regions, with the first gore region being located in a heel area of the article of footwear and the second gore regions being located adjacent to the sole structure.

There is provided a footwear having a three-dimensional shape that fits a foot of a wearer regardless of a stretchability of a knitted fabric. A seamless footwear (1) including an instep cover section (3) and a sole cover section (2) is provided. The sole cover section (2) is divided to a heel portion (20) and a sole main body portion (21). A setup portion (1S) or a knitting end portion is formed at a heel side end of the footwear (1), and such setup portion (1S) or the knitting end portion is extended in a height direction of the footwear (1) and also connected to the heel portion (20). The heel portion (20) is formed by a knitting of stacking a stitch row for plural tiers in a wale direction, and gradually differing the number of stitches in a knitting width direction of the stitch row when stacking tiers of the stitch row. The heel portion (20) is formed to a tongue shape in which a width gradually becomes narrower toward a heel side of the footwear (1) according to the change in the number of stitches.

There is provided a method for knitting a shoe upper that can allow the reinforcement degree of the shoe upper to be changed with a small number of yarn feeders. A method for knitting a shoe upper (1) including an instep cover section (3) that covers a portion on an instep side of a wearer and a sole cover section (2) that covers a sole of the wearer is provided. The instep cover section (3) and the sole cover section (2) are three-dimensionally knitted in a seamless manner; and in the knitting process, at least one base section (10) configuring a part of the shoe upper (1) is knitted using a base knitting yarn containing a non-thermal adhesive yarn and a thermal adhesive yarn, and a reinforcement knitting yarn containing a thermal adhesive yarn is interwoven in the base section (10) to reinforce the base section (10). In this case, the number of knitting with the reinforcement knitting yarn with respect to the base section (10) is changed.

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.

A dual-layer mesh fabric includes an upper gauze layer and a lower gauze layer. The upper gauze layer includes upper carded yarns. First color yarns are provided to stretch across at least two of the upper carded yarns and turned and weaved back and forth. The lower gauze layer includes lower carded yarns. Second color yarns are provided to stretch across at least two of the lower carded yarns and turned and weaved back and forth. The first and second color yarns are exchanged at a setting position, enabling the first color yarns to be tuned and inserted through the lower carded yarns and the second color yarns to be tuned and inserted through the upper carded yarns to be knitted. The upper gauze layer having the first color yarns shows the second color yarns. The lower gauze layer having the second color yarns shows the first color yarns.

A stable conductive myocardial patch with a negative Poisson's ratio structure is provided. The preparation method includes preparing a myocardial patch substrate with concave polygons as the structural units by weaving or knitting, and then a conductive coating is coated on the surface of the substrate. Alternatively, the yarns can be processed into conductive coated yarns first, and then used as the raw material to weave or knit a stable conductive myocardial patch with a negative Poisson's ratio structure. The prepared myocardial patch has a relative resistance change of less than 5% at 50% tensile strain. When the strain of the structural units is within 50%, the fabric exhibits a negative Poisson's ratio structure, which expands in the perpendicular direction of the tensile load. The fabric exhibits a negative Poisson's ratio effect and anisotropy of Young's modulus, which matches the mechanical behavior of natural myocardium.

A three-dimensional, 3D, knitted fabric is knitted by a double-bed weft-knitting machine. The knitted fabric comprises a top layer, a bottom layer, and an intermediate layer, wherein the top layer and the bottom layer are joined together by cross-yarns constituting the intermediate layer, and wherein at least the top layer comprises two-folded cut-resistant yarns.

A three-dimensional, 3D, knitted fabric is knitted by a double-bed weft-knitting machine. The knitted fabric comprises a top layer, a bottom layer, and an intermediate layer, wherein the top layer and the bottom layer are joined together by cross-yarns constituting the intermediate layer, and wherein at least the top layer comprises two-folded cut-resistant yarns.

A tubular compression item having at least one leg part, one foot tip, one heel, one foot and one ribbed edge in the extension of the leg part delimiting an opening for introducing a foot into the item, is provided. The leg part has a height extending from the foot part up to the ribbed edge, and the leg part, the foot and the ribbed edge of the tubular compression item each comprise at least one knitting yarn. An elastic weft yarn is inserted between the stitches on the outer face and the stitches on the inner face of the leg part. The elastic weft yarn is inserted on at least 90% of the columns of stitches without forming any tuck stitch or loop stitch. The elastic weft yarn is maintained between two consecutive rows of stitches in the leg part. The foot tip and the heel each comprise at least one knitting yarn.

An object is to solve problems associated with a stretchable wire member that includes, for example, a garment with stretchable wires formed thereon, that is, to solve the problems of wrinkles and undulations that often occur after the garment is stretched. A stretchable wire member includes a fabric; a base layer disposed on a surface of the fabric; a conductive layer disposed in part of the fabric, the conductive layer being on a surface of the base layer; and a protective layer covering the conductive layer. In the stretchable wire member, an elastic modulus E′3 of a multilayer body portion including the fabric, the base layer, and the protective layer ranges from 1 MPa to 6 MPa.