Abstract: Embodiments of the present disclosure provide a medical product with a biodegradable portion. The biodegradable portion is made of a biodegradable material and the biodegradable portion degrades faster than the remaining portion of the medical product.

Abstract: Cloth, in which air permeability is variable by energization, includes: a fibrous object composed of composite fibers, each of the composite fibers including: an electrical-conductive polymeric material; and a material different from the electrical-conductive polymeric material, the different material being directly stacked on the electrical-conductive polymeric material; and electrodes which are attached to the fibrous object, and energize the electrical-conductive polymeric material. Each of the composite fibers has a structure in which the material different from the electrical-conductive polymeric material is stacked on at least a part of a surface of the electrical-conductive polymeric material, or a structure in which either one of the electrical-conductive polymeric material and the material different from the electrical-conductive polymeric material penetrates the other material in a longitudinal direction.

Abstract: A bi-layer, woven geotextile fabric has interwoven first and second layers. The first layer is over and under woven through the second layer in a pre-determined pattern so that the first layer has portions which face a first side of the second layer and portions which face a second side of the second layer. Monofilaments in the warp direction of the first layer have a pre-determined differential heat shrinkage characteristic that is greater than the monofilaments in the warp direction of the second layer. Closed cells defined by the pattern of the over and under weave are disposed on the first and second sides of the second layer. Shrinkage of the monofilaments in the warp direction of the first layer provide for a separation of a portion of the second layer from the first layer at the cells.

Abstract: Embodiments of the present disclosure provide a fabric that may include conformal fibers. The conformal fibers may have different heat reactive properties. Some of the fibers may become more pliable when exposed to low temperature heat. The low temperature fiber may be used to conformal fit the clothing to the wearer. Clothing may be partially or wholly made of heat reactive fibers, which may react to lower temperature heat, such as body temperature. The reactive fibers may conform the clothing to the wearer's body.

Abstract: The present invention relates to a heat, flame, and electric arc resistant fabric (1) for use as single or outer layer of protective garments. The fabric (1) of the invention comprises at least two separate single plies which are assembled together at predefined positions so as to build pockets (4). The fabric (1) of the invention is made of materials independently chosen from the group consisting of aramid fibers and filaments, polybenzimidazol fibers and filaments, polyamidimid fibers and filaments, poly(paraphephenylene benzobisaxazole) fibers and filaments, phenol-formaldehyde fibers and filaments, melamine fibers and filaments, natural fibers and filaments, synthetic fibers and filaments, artificial fibers and filaments, glass fibers and filaments, carbon fibers and filaments, metal fibers and filaments, and composites thereof.

Abstract: A heat-shrinkable planar textile material with a plurality of yarn systems forming the planar textile material, wherein the planar textile material having at least one heat-shrinkable plastic yarn. The planar textile material is suitable for producing furniture elements, especially seating furniture elements, preferably backrests and/or seat elements, decorative elements, hollow channels, automotive accessories, and the like, wherein the heat-shrinkable planar textile material can be mounted on a carrier structure and then heat shrunk.

Abstract: This material is remarkable in that it is made by weaving or knitting, in such a manner as to form a structure comprising two superposed faces (1, 2) intermittently interconnected to each other so as to form pockets, and in which: one of the layers shrinks under the effect of heat; and the linking between the layers is implemented by intermittently linking selected yarns so as to form said pockets.