This provides a system and method for constructing and employing a wire carrier for use in reinforcing the attachment channel of weather seals that includes an expansion and compression resisting element located along at least one bending axis of the carrier when it is folded and molded into the attachment channel of the weather seal. The resisting element can be combined with warp yarns that allow limited expansion and compression along other axes, but in combination with the element prevent collapse of the seal that results in and uneven surface and/or visible kinks. The resisting element can comprise at least one undulating (sinusoidal) wire that is attached (e.g. by welding, soldering, etc.) to the individual crossing carrier wires. Alternatively, the resisting element can comprise another type of structure, such as a thin metal or polymer strip. Likewise, the undulating wire(s) can be constructed from a polymer.

This provides a system and method for constructing and employing a wire carrier for use in reinforcing the attachment channel of weather seals that includes an expansion and compression resisting element located along at least one bending axis of the carrier when it is folded and molded into the attachment channel of the weather seal. The resisting element can be combined with warp yarns that allow limited expansion and compression along other axes, but in combination with the element prevent collapse of the seal that results in and uneven surface and/or visible kinks. The resisting element can comprise at least one undulating (sinusoidal) wire that is attached (e.g. by welding, soldering, etc.) to the individual crossing carrier wires. Alternatively, the resisting element can comprise another type of structure, such as a thin metal or polymer strip. Likewise, the undulating wire(s) can be constructed from a polymer.

A protective textile sleeve and method of construction thereof is provided. The sleeve has a knit, tubular wall extending lengthwise along a central longitudinal axis between opposite ends. The knit wall has a first state with a decreased length, increased cross-sectional area, as viewed in cross-section taken generally transversely to the central longitudinal axis, and a second state with an increased length, decreased cross-sectional area, as viewed in cross-section taken generally transversely to the central longitudinal axis. The wall includes knit, heat-set yarns imparting a bias on the wall, wherein the bias causes the wall to remain substantially in the first and second states absent an externally applied force.

A protective textile sleeve and method of construction thereof is provided. The sleeve has a knit, tubular wall extending lengthwise along a central longitudinal axis between opposite ends. The knit wall has a first state with a decreased length, increased cross-sectional area, as viewed in cross-section taken generally transversely to the central longitudinal axis, and a second state with an increased length, decreased cross-sectional area, as viewed in cross-section taken generally transversely to the central longitudinal axis. The wall includes knit, heat-set yarns imparting a bias on the wall, wherein the bias causes the wall to remain substantially in the first and second states absent an externally applied force.

Two-sided warp-knitted fabrics having perforations possessing elastic qualities are usable in the medical industry for making warming products such as belts, bands, and compression bandages. A fabric includes, in its warp, wales having a closed-chain weave made of synthetic threads with elastomeric threads disposed inside of the wales, and, in its weft, thread systems made of a wool yarn or a yarn including wool, and, for a bandage, thread systems made of a natural yarn and/or an artificial yarn and/or a synthetic yarn. One system forms the front side and the other forms the back side of the fabric. The fabric has sections with weft threads missing in the courses of the fabric, and in the place of the weft threads are perforations, the minimal width of each perforation being equal to the distance between wales. A breathable fabric is produced suitable for making the aforementioned medical products.

The disclosure relates to a process for manufacturing three-layer warp-woven fabric with a perspective effect and fabric woven by the same. A dual-needle-bed warp loom is used to weave the fabric; a front needle bed is programmed to weave transparent filaments. Distinguished from the prior art, in the disclosure, the transparent filaments are woven at the front needle bed, so that the fabric at the front needle bed becomes transparent, and the jacquard guide bar generates the weft insertion stitch at the front needle bed and the loop stitch at the rear needle bed, so that the front and rear needle beds of the jacquard guide bar weave different stitches to finally obtain three-layer warp-woven fabric with a perspective effect (the color and shape of the middle or bottom layer are visible), achieving an irregular concave-convex effect in different areas with color visible.

A rope having a core for providing strength to the rope, where at least a metal or composite woven or warp knitted fabric having multiple substantially parallel elongated metal elements is provided around the core for protecting said core from impact and cutting, and where the multiple substantially parallel elongated elements are in the warp direction and held by yarns.

A rope having a core for providing strength to the rope, where at least a metal or composite woven or warp knitted fabric having multiple substantially parallel elongated metal elements is provided around the core for protecting said core from impact and cutting, and where the multiple substantially parallel elongated elements are in the warp direction and held by yarns.

A permeate carrier for reverse osmosis, nanofiltration, ultrafiltration, or microfiltration systems is provided. The permeate carrier includes a tricot knitted fabric sheet which includes synthetic yarns knitted into pillars formed by a 1-0, 0-1 lapping pattern or a 0-1, 1-0 lapping pattern and cross ribs formed by a 2-3, 1-0 lapping or a 1-0, 2-3 lapping pattern. The permeate carrier is configured for placement between adjacent filter membranes in a water filtration system.

Conductive yarns in a knitted fabric may include insulating cores covered with metal layers that form signal paths. Open circuits may be formed in the yarns by removing metal from the insulating cores at selected locations within the yarns. The fabric may be formed from rows of interlocked loops of the yarn. The open circuits may be located on the loops so that each loop with an open circuit has a first segment of the metal layer that is separated from a second segment of the layer by a portion of the loop from which the metal layer has been removed. Each electrical component may have terminals that span a respective one of the open circuits and that are shorted respectively to the metal of the first and second segments.