A method for manufacturing a cut resistant fabric includes: supplying a polyethene yarn with a thickness of 50-225 dtex as a protective yarn through a first yarn carrier of a circular knitting machine to a feeder needle at a first selected tension; supplying simultaneously an uncoated elastane yarn with a thickness of 20-80 dtex as a first additional yarn through a second yarn carrier of the circular knitting machine to the same feeder needle at a second selected tension that is higher than the first selected tension of the protective yarn; forming a fabric from the protective yarn and the first additional yarn as single-jersey knits; and interlocking the protective yarn and the first additional yarn in each single-jersey knit of the fabric using a heat treatment step on a stenter frame.

An article may include first and second components comprising non-woven textiles and a third component positioned between the first two components. A first surface of the third component that is adjacent the first component comprises a thermoplastic polymer material, and the third component is fused with a first region of the first component and unfused with a second region of the first component. A method of manufacturing the article, which may be an article of wear, includes arranging the components to form a stacked configuration so that the third component is positioned between the first and second components. Heat and compression may be applied to at least a first region of the first component to fuse the first region with the third component, whereas a second region of the first component may remain unfused to the second component.

An article may include first and second components comprising non-woven textiles and a third component positioned between the first two components. A first surface of the third component that is adjacent the first component comprises a thermoplastic polymer material, and the third component is fused with a first region of the first component and unfused with a second region of the first component. A method of manufacturing the article, which may be an article of wear, includes arranging the components to form a stacked configuration so that the third component is positioned between the first and second components. Heat and compression may be applied to at least a first region of the first component to fuse the first region with the third component, whereas a second region of the first component may remain unfused to the second component.

The application relates to a fire-resistant textile composite having an upper surface and a lower surface. The composite contains a nonwoven layer and a knit layer. The nonwoven layer has a first and second side and contains a nonwoven textile. The nonwoven textile contains a plurality of first fire-resistant fibers, where the first fire-resistant fibers are non-thermoplastic. The nonwoven layer forms the lower surface of the textile composite. The knit layer contains a knit textile having a first and second side and the second side of the knit layer is adjacent to the first side of the nonwoven layer. The knit textile contains a plurality of second fire-resistant yarns, where the second fire-resistant yarns are non-thermoplastic. At least a portion of the first fire-resistant fibers from the nonwoven layer extend through the first side of the knit layer and form the upper surface of the textile composite.

The application relates to a fire-resistant textile composite having an upper surface and a lower surface. The composite contains a nonwoven layer and a knit layer. The nonwoven layer has a first and second side and contains a nonwoven textile. The nonwoven textile contains a plurality of first fire-resistant fibers, where the first fire-resistant fibers are non-thermoplastic. The nonwoven layer forms the lower surface of the textile composite. The knit layer contains a knit textile having a first and second side and the second side of the knit layer is adjacent to the first side of the nonwoven layer. The knit textile contains a plurality of second fire-resistant yarns, where the second fire-resistant yarns are non-thermoplastic. At least a portion of the first fire-resistant fibers from the nonwoven layer extend through the first side of the knit layer and form the upper surface of the textile composite.

Provided is a three-dimensional elastic circular knitted fabric combining light weight, heat retention, stretchability, and press shrinkage resistance. This three-dimensional elastic circular knitted fabric is obtained by connecting two front/back ground structures with a connecting yarn of only a tuck structure, wherein the three-dimensional elastic circular knitted fabric is characterized in that: the two front/back ground structures is solely constituted by non-elastic fiber; the connecting yarn is solely constituted by elastic fiber; the elastic fiber is interwoven at 2-15 couses/1 repeat; the loop density of the knitted fabric is 40-130 courses/inch, and 35-80 wells/inch; the filling rate is 5.0-25.0%; the thermal retention rate is 20.0% or higher; and the rate of elongation at a constant 22.1-N load is 50-200% in the warp direction and 150-300% in the weft direction.

Provided is a three-dimensional elastic circular knitted fabric combining light weight, heat retention, stretchability, and press shrinkage resistance. This three-dimensional elastic circular knitted fabric is obtained by connecting two front/back ground structures with a connecting yarn of only a tuck structure, wherein the three-dimensional elastic circular knitted fabric is characterized in that: the two front/back ground structures is solely constituted by non-elastic fiber; the connecting yarn is solely constituted by elastic fiber; the elastic fiber is interwoven at 2-15 couses/1 repeat; the loop density of the knitted fabric is 40-130 courses/inch, and 35-80 wells/inch; the filling rate is 5.0-25.0%; the thermal retention rate is 20.0% or higher; and the rate of elongation at a constant 22.1-N load is 50-200% in the warp direction and 150-300% in the weft direction.

A knitted textile (2) having a first layer (4) including a first yarn (12) with a thermoplastic composition integrally formed with a second layer (6) including a second yarn (14), the first yarn (12) forming an array of knitted patterns (16) defining voids (8) through the first layer (4) to the second layer (6). The first layer (4) may be heat treated to form a film. (24). Treatment of the first layer (4) may change zonal and directional tensile properties of the knitted textile (2). The Poisson's ratio of the knitted textile (2) may be greater than or equal to zero in a first axis (32) and/or a second axis (30), before and/or after treatment. Articles of apparel, including articles of footwear (26) and garments incorporating the knitted textile (2), and methods of forming the knitted textiles (2) and articles are disclosed.

A knitted textile (2) having a first layer (4) including a first yarn (12) with a thermoplastic composition integrally formed with a second layer (6) including a second yarn (14), the first yarn (12) forming an array of knitted patterns (16) defining voids (8) through the first layer (4) to the second layer (6). The first layer (4) may be heat treated to form a film. (24). Treatment of the first layer (4) may change zonal and directional tensile properties of the knitted textile (2). The Poisson's ratio of the knitted textile (2) may be greater than or equal to zero in a first axis (32) and/or a second axis (30), before and/or after treatment. Articles of apparel, including articles of footwear (26) and garments incorporating the knitted textile (2), and methods of forming the knitted textiles (2) and articles are disclosed.

Provided is a knit fabric which does not cause feelings of clamminess, feels very cool to the touch and is comfortable, and limits feelings of stickiness and post-sweat chill through rapid drying of sweat, and at the same time is capable of further improving texture. The garment comprises a multilayer-structure circular-knit fabric made of a single circular knit with a layered structure of at least two layers, and the surface that contacts the skin is the needle-loop side of the circular-knit fabric. The circular-knit fabric has portions in which long cellulose fibers and hydrophobic fibers are knit together to form the same knit loops. The garment contains 10-50 weight % of the long cellulose fibers. The exposure rate of the long cellulose fibers in the region from the surface of the side that contacts the skin to 0.13 mm into the interior of the circular-knit fabric is at least 30%.