An exemplary elongated elevator load bearing member includes a plurality of tension elements that extend along a length of the load bearing member. A plurality of weave fibers transverse to the tension elements are woven with the tension elements such that the weave fibers maintain a desired spacing and alignment of the tension elements relative to each other. The weave fibers at least partially cover the tension elements. The weave fibers are exposed and establish an exterior, traction surface of the load bearing member.

In electrical stimulation fitness wear, multiple electrode parts 30 are provided in a clothing portion, at positions that respectively face multiple target body parts such as to be respectively in proximity to the multiple target body parts, so as to provide electrical stimulation to the multiple target body parts, and the multiple electrode parts 30 each have a surface formed of a conductive polymer fabric 31. Multiple electrical cables 36 respectively connect the multiple electrode parts 30 to a connection part of a control unit electrically. The multiple electrode parts 30 include a first electrode part 30 to which a first electrical cable 36 is connected and a second electrode part 30 to which a second electrical cable 36 is connected. The first electrode part 30 and the second electrode part 30 are provided at separate positions such that a current can be applied to a certain body part between the electrodes.

In electrical stimulation fitness wear, multiple electrode parts 30 are provided in a clothing portion, at positions that respectively face multiple target body parts such as to be respectively in proximity to the multiple target body parts, so as to provide electrical stimulation to the multiple target body parts, and the multiple electrode parts 30 each have a surface formed of a conductive polymer fabric 31. Multiple electrical cables 36 respectively connect the multiple electrode parts 30 to a connection part of a control unit electrically. The multiple electrode parts 30 include a first electrode part 30 to which a first electrical cable 36 is connected and a second electrode part 30 to which a second electrical cable 36 is connected. The first electrode part 30 and the second electrode part 30 are provided at separate positions such that a current can be applied to a certain body part between the electrodes.

Some embodiments are directed to a three-dimensional (3D) preform including reinforcing fibres and shape memory alloys (SMA) wires and a composite material including a polymer matrix with a 3D-preform embedded therein, wherein the 3D-preform includes reinforcing fibres and shape memory alloy (SMA) wires.

A tire includes a carcass ply, a tread disposed radially outward of a crown region of the carcass ply, a belt structure having an overall axial width substantially equal to a tread width interposed between the tread and the crown region in circumferential surrounding relation to the carcass ply, and a fabric layer including a plurality of warp cords and a plurality of weft cords extending transversely over and under each of the warp cords, each warp cord being a monofilament, each weft cord being a flat textured multifilament.

A woven textile has one or more weavable threads and at least one lighting filament in which the weavable threads and the at least one lighting filament are woven together to form a textile with integrally woven lighting.

A textile sleeve for routing and protecting an elongate member has a wrappable wall including a textile layer having an inner surface and an opposite outer surface extending lengthwise between opposite ends and widthwise between opposite edges. The opposite edges are configured to be wrapped about a central longitudinal axis to bound a central cavity extending lengthwise along the central longitudinal axis between the opposite ends. The textile layer is formed of yarns interlaced with one another, wherein a least some of the yarns include metal wire(s). A silicone-based layer is disposed about the outer surface of the textile layer to provide enhanced heat-resistance, dielectric protection and impact resistance.

A textile sleeve for routing and protecting an elongate member has a wrappable wall including a textile layer having an inner surface and an opposite outer surface extending lengthwise between opposite ends and widthwise between opposite edges. The opposite edges are configured to be wrapped about a central longitudinal axis to bound a central cavity extending lengthwise along the central longitudinal axis between the opposite ends. The textile layer is formed of yarns interlaced with one another, wherein a least some of the yarns include metal wire(s). A silicone-based layer is disposed about the outer surface of the textile layer to provide enhanced heat-resistance, dielectric protection and impact resistance.

The disclosed embodiments provide a smart garment on which implemented designs can be changed in terms of color, image, text, etc. Also, a system is provided that comprises: a server for providing various designs to be implemented on a smart garment; and a user terminal that can change the design of the smart garment by receiving various designs from the server and transmitting same to the smart garment. The system according to the disclosed embodiments comprises: a server including a design database for a smart garment; a user terminal for downloading a design for the smart garment from the server; and the smart garment on which the design transmitted from the user terminal is implemented.

The invention describes a seat belt (10) for a motor vehicle comprising a webbing (12) that includes plural layers (26, 28, 30) at least one layer (26) of which comprises an electric heating element (26). The invention further describes a method for manufacturing such seat belt (10).