A textile connector comprises a woven element in the shape of a tubular ring and a yarn forming a plurality of loops arranged in the tubular ring. The loops provide a strength of the textile connector. A seam is formed by means of at least one yarn passing through the two ends of the woven element several times to close the tubular ring. The woven element is a tubular woven element defining a through hole from a first end to an opposite second end along a longitudinal axis. The first end is an outer end that overlaps the second end forming an inner end. The seam secures the outer end with the inner end and defines joins angularly offset from one another when observed in the longitudinal direction.

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.

The present disclosure concerns an elongate self-closing sleeve for protecting elongate members, said sleeve having internal and external opposite faces wherein said sleeve comprises a sound dampening textile substrate and a warp knitted textile stitched to said textile substrate. Said sound dampening textile substrate and said warp knitted textile having first and second longitudinal opposite free edges biased toward each other in order to define an internal space wherein said elongate member could be placed therein, and wherein said warp knitted textile comprises at least one first monofilament yarn that forms laying-in stitches and that is in plastic material(s).

A material for use in lining pipes is disclosed. A warp-knitted tubular fabric (24, 64) in which the stitch used (for example a tricot stitch) is of a type that reconfigures as the tube is expanded radially to contract longitudinally is sufficiently flexible and compressible to enable it to conform to pipe structures. The fabric of this invention is infused with resin, which is cured once the liner is in place within the pipe. Potentially, this fabric may be thinner than known prior art materials, but exhibits comparable strength and conformability, which are necessary characteristics in the repair or rehabilitation of pipes. The use of a thinner fabric material reduces constriction of the pipe bore by repair and also offers the potential for cheaper lining material, as less resin is required. The fabric may be knitted from glass fibre yarn, which is non-toxic and a stronger material than generally used in the prior art.

An illustrative stent may comprise an elongated tubular member having a first end and a second end and an intermediate region disposed therebetween. The elongated tubular member configured to move between a collapsed configuration and an expanded configuration. The elongated tubular member may comprise at least one twisted filament, such as a knitted filament having a plurality of twisted knit stitches with intermediate rung portions extending between adjacent twisted knit stitches and one or more anti-migration features formed in one or more intermediate rung portions.

An illustrative stent may comprise an elongated tubular member having a first end and a second end and an intermediate region disposed therebetween. The elongated tubular member configured to move between a collapsed configuration and an expanded configuration. The elongated tubular member may comprise at least one twisted filament, such as a knitted filament having a plurality of twisted knit stitches with intermediate rung portions extending between adjacent twisted knit stitches and one or more anti-migration features formed in one or more intermediate rung portions.

Various aspects of the present disclosure are directed toward medical device deployment apparatuses, systems, and methods. The apparatuses, systems, and methods may include at least one first constraining fiber arranged as a series of multiple loops to form a warp knit surrounding the medical device in a constrained configuration and at least one second constraining fiber arranged with the at least one first constraining fiber having at least one loop arranged in a non-warp knit pattern.

A sleeve for protecting an elongate member, including a bus-bar of a battery pack, and method of construction thereof are provided. The sleeve includes a knit wall having a circumferentially continuous outer surface extending along a longitudinal axis between opposite open ends. The knit wall is formed at least in part by multifilament flame-resistant yarn. The multifilament flame-resistant yarn is knit to form both the knit wall, and also first ribs extending lengthwise along the circumferentially continuous outer surface or second ribs extending annularly about said circumferentially continuous outer surface. An impervious, flame-resistant coating is bonded to an outer surface of the circumferentially continuous knit wall.

A sleeve for protecting an elongate member, including a bus-bar of a battery pack, and method of construction thereof are provided. The sleeve includes a textile wall having a circumferentially continuous outer surface extending along a longitudinal axis between opposite open ends. The textile wall is formed at least in part by multifilament flame-resistant yarn. An impervious, flame-resistant coating is bonded to an outer surface of the circumferentially continuous textile wall.