Included are segmented polyurethane elastic fibers or spandex fibers, capable of bonding to polymer fiber such as nylon or polyamide fibers, in addition to bonding to itself, for apparel textile applications. More particularly the invention relates to bicomponent spandex fibers, with a heat resistant core and a heat sensitive sheath, spun from polymer solutions. The nylon fabrics containing such spandex fibers have enhanced stretch performance and improved surface appearance after heat treatment to activate the fusing and bonding between nylon fibers and spandex fibers.

An end fray resistant textile sleeve includes an elongate wall having warp yarns extending generally parallel to a longitudinal central axis of the sleeve and fill yarns extending circumferentially about the sleeve. The warp yarns include at least two different types of yarns, with one of the types of warp yarns including activateable yarns and another of the types of yarns including non-activateable yarns. The activateable yarns can be provided as being activateable by at least one of heat, fluid and/or pressure, such that upon being activated, the yarns are caused to bond with the adjacent non-activateable warp yarns, as well as with the weft yarns with which they make contact. As such, the activateable yarns, upon being activated, become fixed with abutting warp yarns and weft yarns, thereby inhibiting end fray from resulting during a subsequent cold-cutting operation as well as in use.

An end fray resistant textile sleeve includes an elongate wall having warp yarns extending generally parallel to a longitudinal central axis of the sleeve and fill yarns extending circumferentially about the sleeve. The warp yarns include at least two different types of yarns, with one of the types of warp yarns including activateable yarns and another of the types of yarns including non-activateable yarns. The activateable yarns can be provided as being activateable by at least one of heat, fluid and/or pressure, such that upon being activated, the yarns are caused to bond with the adjacent non-activateable warp yarns, as well as with the weft yarns with which they make contact. As such, the activateable yarns, upon being activated, become fixed with abutting warp yarns and weft yarns, thereby inhibiting end fray from resulting during a subsequent cold-cutting operation as well as in use.

An end fray resistant textile sleeve includes an elongate wall having warp yarns extending generally parallel to a longitudinal central axis of the sleeve and fill yarns extending circumferentially about the sleeve. The warp yarns include at least two different types of yarns, with one of the types of warp yarns including activateable yarns and another of the types of yarns including non-activateable yarns. The activateable yarns can be provided as being activateable by at least one of heat, fluid and/or pressure, such that upon being activated, the yarns are caused to bond with the adjacent non-activateable warp yarns, as well as with the weft yarns with which they make contact. As such, the activateable yarns, upon being activated, become fixed with abutting warp yarns and weft yarns, thereby inhibiting end fray from resulting during a subsequent cold-cutting operation as well as in use.

An article includes continuous filaments of 85 wt. % to 98 wt. % of a polypropylene and 2 wt. % to 10 wt. % of a polycarbonate. The continuous filament has a tensile strength of at least 650 MPa and/or a modulus of at least 10 GPa, and can advantageously be used for example in multifilament yarns, in ropes, in woven fabrics, in nonwovens, in strapping tapes and in straight warp knitted fabrics.

An article includes continuous filaments of 85 wt. % to 98 wt. % of a polypropylene and 2 wt. % to 10 wt. % of a polycarbonate. The continuous filament has a tensile strength of at least 650 MPa and/or a modulus of at least 10 GPa, and can advantageously be used for example in multifilament yarns, in ropes, in woven fabrics, in nonwovens, in strapping tapes and in straight warp knitted fabrics.

A fiber having both thermal-insulating and cool-feeling functions and a fabric having both thermal-insulating and cool-feeling functions are provided. The fiber includes a thermal-insulating part and a cool-feeling part encapsulating the thermal-insulating part. A material of the thermal-insulating part includes a first base material and a near infrared reflective material dispersed in the first base material. The near infrared reflective material is selected from the group consisting of iron, cobalt, chromium, copper, nickel, bismuth, and an alloy thereof. A material of the cool-feeling part includes a second base material and a cool feeling material dispersed in the second base material. The cool feeling material is a silicate containing at least one metal selected from the group consisting of calcium, magnesium, sodium, and aluminum. The fabric having both thermal-insulating and cool-feeling functions is woven from the fiber having both thermal-insulating and cool-feeling functions.

A fiber having both thermal-insulating and cool-feeling functions and a fabric having both thermal-insulating and cool-feeling functions are provided. The fiber includes a thermal-insulating part and a cool-feeling part encapsulating the thermal-insulating part. A material of the thermal-insulating part includes a first base material and a near infrared reflective material dispersed in the first base material. The near infrared reflective material is selected from the group consisting of iron, cobalt, chromium, copper, nickel, bismuth, and an alloy thereof. A material of the cool-feeling part includes a second base material and a cool feeling material dispersed in the second base material. The cool feeling material is a silicate containing at least one metal selected from the group consisting of calcium, magnesium, sodium, and aluminum. The fabric having both thermal-insulating and cool-feeling functions is woven from the fiber having both thermal-insulating and cool-feeling functions.

In one aspect, the disclosure relates to composite fibers having a structure comprising a core component and sheath component, wherein each of the core component and the sheath layer independently comprise a polymer and a disclosed cooling composition. In various further aspects, the present disclosure pertains to single-covered yarn comprising a core yarn comprising a disclosed composite fiber comprising a core component and a sheath component. In still further aspects, the present disclosure pertains to a fabric, such as a denim fabric, comprising a disclosed single-covered yarn. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present disclosure.

A webbing and methods for manufacturing the same are disclosed herein. The webbing may include a first set of threads having a first plurality of nylon fibers. The first set of threads may be woven together across a first webbing end and a second webbing end. The webbing may include a second set of threads having a second plurality of nylon fibers. The second set of threads may have a hard polymer coating. The second set of threads may be woven together across the first webbing end and the second webbing end along a first edge of the webbing and a second edge of the webbing. The hard polymer coating may be reflective.