The disclosure describes implantable bioprosthesis and constructs having an implantable woven ribbon with at least one integrated suture.

A forming fabric tape for a machine for producing or processing a fiber web, the forming fabric tape including an upper fabric layer including upper longitudinal threads and upper transversal threads woven with the upper longitudinal threads; and a lower fabric layer including lower longitudinal threads and lower transversal threads woven with the lower longitudinal threads, wherein the upper fabric layer and the lower fabric layer are arranged above one another so that the upper fabric layer is oriented towards the fiber material web and the lower fabric layer is oriented away from the fiber web, wherein the upper fabric layer is connected with the lower fabric layer by binding threads (B1-B2) running in a transversal direction of the fabric tape, wherein a weaving pattern of the forming fabric tape is repeated in pattern repeats, wherein the pattern repeats are formed from plural longitudinal thread supergroups.

A dry wall tape for use with a panel system includes a mesh having a plurality of width strands, and a plurality of length strands which traverse the plurality of width strands, wherein the length strands are more resistant to a pulling force than the width strands and wherein the tape is configured to be applied to the panel system.

Weaving equipment may include strand positioning equipment that positions warp strands and that inserts weft strands among the warp strands to form fabric. The weaving equipment may include one or more guide arms that pushes warp strands in the weft direction during weaving. Fabrics having warp strands that extend in both the warp direction and the weft direction may be used in forming circuitry in fabrics such as touch sensor circuitry. For example, a touch sensor in a fabric may be formed using first conductive warp strands that form first touch sensor electrodes and second conductive warp strands that form second touch sensor electrodes that overlap with the first touch sensor electrodes. The second conductive warp strands may each have a first portion that extends in the warp direction and a second portion that extends in the weft direction across the first touch sensor electrodes.

A helmet strap for fastening a helmet to a head comprises at least one strap belt having a Y shape that has a first arm, a second arm and a third arm to be fastened to the helmet at a respective helmet side by two of the arms and for the remaining arm to be able to extend up to a chin region of the head. In this respect, the strap belt comprises a first part belt that extends without interruption along the first and third arms and a second part belt that extends without interruption along the second and third arms, wherein the first and second part belts are fixedly interconnected along the third arm or are formed materially integrally with one another along the third arm.

A woven material (100) including bonding fibers (108) and a method of reinforcing woven material using bonding fibers is disclosed. The woven material (100) includes a plurality of warp threads (102), and at least one weft thread (104) coupled to the warp threads (102). The woven material (100) also includes a plurality of bonding fibers (108). The bonding fibers (108) are positioned in parallel with the warp threads (102), and/or in parallel with the weft thread(s) (104). Additionally, the bonding fibers (108) are formed from a material having a melting temperature that is lower than a melting temperature of the material(s) used to form the warp threads (102) and the weft thread(s) (104) of the woven material.

A piece of fabric for manual sewing projects and method of creating said projects with said fabric, consisting of a piece (1) of cloth that incorporates, with identical or different colors, prints and/or textures, the figures (2) for creating a certain patchwork design (3), each figure (2) being marked with a seam line (4) that defines the outline thereof and a cutting line (5) that defines a perimeter border that is optionally pre-perforated. The method only comprises obtaining said piece (1), cutting the figures (2) along the cutting line (5) and sewing them together. Optionally, the patchwork design (3) is selected and the piece (1) is ordered with the desired figures (2) and colors, prints and/or textures.

A piece of fabric for manual sewing projects and method of creating said projects with said fabric, consisting of a piece (1) of cloth that incorporates, with identical or different colors, prints and/or textures, the figures (2) for creating a certain patchwork design (3), each figure (2) being marked with a seam line (4) that defines the outline thereof and a cutting line (5) that defines a perimeter border that is optionally pre-perforated. The method only comprises obtaining said piece (1), cutting the figures (2) along the cutting line (5) and sewing them together. Optionally, the patchwork design (3) is selected and the piece (1) is ordered with the desired figures (2) and colors, prints and/or textures.

Provided are systems and methods for producing seamless woven materials that are variable in each of their 3 dimensions. The systems and methods generally operate by altering heddle positions independently to impart three dimensional structure to a woven fabric. Weft yarn is woven into a set of warp yarns that have been individually raised or lowered along a particular cross section, essentially locking the weave into an intended 3 dimensional form.

Weaving equipment may include strand positioning equipment that positions warp strands and that inserts weft strands among the warp strands to form fabric. The weaving equipment may include one or more guide arms that pushes warp strands in the weft direction during weaving. Fabrics having warp strands that extend in both the warp direction and the weft direction may be used in forming circuitry in fabrics such as touch sensor circuitry. For example, a touch sensor in a fabric may be formed using first conductive warp strands that form first touch sensor electrodes and second conductive warp strands that form second touch sensor electrodes that overlap with the first touch sensor electrodes. The second conductive warp strands may each have a first portion that extends in the warp direction and a second portion that extends in the weft direction across the first touch sensor electrodes.