A high-quality decorative material in which a linear light guide body or a linear light emitting body is less likely to be damaged and less likely to cause a losing shape in a woven fabric portion. The decorative material is provided with a beading portion including a bag structure portion composed of a tubular fabric and one or a plurality of linear bodies arranged inside the bag structure portion. The linear body is composed of a linear light guide body or a linear light emitting body. A warp yarn constituting the bag structure portion is configured to include at least a thermally fusible yarn. The warp yarn is composed of a twisted yarn in which a thermally fusible yarn and a non-thermally fusible yarn are twisted together.

A velvet sheath for bra wire rings and a bra using the velvet sheath, the sheath comprises a main body holding a hollow part and formed by an upper fabric and a lower fabric, both sides of the hollow part of main body interweave and connect the upper fabric and the lower fabric to form velvet woven grid surfaces by velvet warp threads crossed up and down, respectively, and the sheath is sewn under the bra cup. The velvet sheath for bra wire rings according to the present invention will not appear rough surface and uneven elasticity caused by wire rings pulling the sheath after wire rings inserted into the curvedly sewn sheath or when users wear such bras later, and may ameliorate deformation, wrinkles and tightness of the sheath caused by the uneven tension formed by bending of wire rings and can cushion the compression induced by bending of wire rings without affecting the effect of the sheath on fixing the wire rings.

A textile sleeve for protecting elongate members against EMI and method of construction thereof is provided. The sleeve includes a wall having opposite edges extending lengthwise in generally parallel relation with a longitudinal axis between opposite ends. The opposite edges are configured to overlap one another to bound a central cavity extending between the opposite ends. The wall includes warp filaments, extending generally parallel to the longitudinal axis, woven with weft filaments, extending generally transversely to the warp filaments. The warp filaments include substantially electrically non-conductive multifilaments woven in a plain weave pattern with the weft filaments and electrically conductive members woven with the weft filaments to form a plurality of floats, with each of the floats extending over at least two adjacent ones of the weft filaments.

A fabric substrate having a warp direction and a fill direction is provided. The fabric substrate includes a plurality of warp yarns, a plurality of fill yarns. A portion of the plurality of the fill yarns form a hollow channel extending in the fill direction, and the hollow channel contains an encased fill yarn. As such, the encased fill yarn is protected from abrasion, bending, flexing, folding, compression, shrinkage, or expansion of the fabric substrate and remains undamaged after the fabric substrate is woven and subsequently handled or processed. In other embodiments, a hollow channel containing an encased yarn is formed in the warp direction, or hollow channels each containing an encased yarn are formed in both the fill direction and the warp direction.

A wrappable textile sleeve for protecting a conductive elongate member against at least one of EMI, RFI or ESD and method of construction thereof is provided. The sleeve includes a plurality of warp filaments and at least one weft filament woven with one another to form a woven substrate. The woven substrate has opposite sides extending lengthwise between opposite ends. The opposite sides are wrappable about a central longitudinal axis into overlapping relation with one another to circumferentially enclose the elongate member within a cavity of the sleeve. At least some of the warp filaments are provided as generally flat, thin conductive filaments shield the conductive elongate member against the effects of EMI, RFI and/or ESD.

A wrappable textile sleeve for protecting an elongate member and method of construction thereof is provided. The sleeve includes a plurality of warp filaments and at least one weft filament woven with one another to form a woven wall. The woven wall has opposite sides extending lengthwise between opposite ends. The opposite sides are wrappable about a central longitudinal axis into overlapping relation with one another to bound the elongate member within a cavity of the sleeve. At least one warp and/or weft filament is provided as a bulky, fluffy multifilament, wherein the bulky, fluffy multifilament is woven to form at least one float extending over 2 or more weft and/or warp yarns, wherein the at least one float provides loops sufficient to readily fix themselves to hooks of a standard hook and loop fastener.

Aspects herein are directed to a knit sock having a leg portion and an integrally knit ankle welt extending around a circumference of the leg portion and positioned at a lower end of the leg portion. The knit sock further includes an integrally knit tab located at a back aspect of the ankle welt.

A wrappable textile sleeve and method of reducing cracking in a foil layer of a wrappable textile sleeve are provided. The sleeve includes an elongate wall extending along a longitudinal axis between opposite ends with lengthwise extending edges extending along the longitudinal axis between the opposite ends. The wall includes a textile layer, a polymeric film layer fixed to the inner textile layer and a metal foil layer fixed to the polymeric film layer. The polymeric film layer has a first thickness and the metal foil layer has a second thickness, wherein the second thickness is greater than the first thickness.

A corrugated protective textile sleeve has a flexible, tubular wall of woven warp yarns, extending lengthwise along a longitudinal axis between opposite ends of the wall, and weft yarns, extending generally transversely to the warp yarns. At least some of the weft yarns are activatable weft yarn to shrink in length and at least some the weft yarns, adjacent the activatable weft yarn, are substantially non-activatable weft yarn. The substantially non-activatable weft yarn form crests, having a first diameter, spaced axially from one another and the activatable weft yarns, upon being activated and shrunken, form valleys, having a second diameter less than the first diameter, with at least some of the valleys extending between the crests to form the wall having a corrugated contour.

A thermal sleeve for routing and protecting elongate members and method of construction thereof are provided. The sleeve has a tubular woven wall extending along a central axis between opposite open ends with an outer reflective foil layer fixed thereto. The wall is woven with lengthwise extending warp yarns and circumferentially extending fill yarns. The fill yarns include first and second fill yarns bundled in side-by-side abutting relation as a single pick, thereby forming discrete single pick bundles in axially spaced relation from one another. The first fill yarn is provided as a standard monofilament, while the second fill yarn is provided having a low melt material melted and bonded to the abutting first fill yarn and to portions of the abutting warp yarns, wherein the spaces between the discrete bundles remain substantially free of melted material, thereby further enhancing longitudinal flexibility of the sleeve.