Abstract:
An improved secondary carpet backing fabric imparts increased resistance to buckling in carpets compared to conventional widely used secondary backings while providing the performance of conventional secondary carpet backings (e.g., similar peel strength, tuft bind, ease of handling). The improved backing is produced by a one-step weaving process and can be converted easily into carpet using current carpet making techniques. The inventive secondary carpet backing contains core-spun filling yarn with specific properties and is preferably woven in a leno or plain weave. Compared to carpets with conventional secondary backings, carpets with the inventive secondary backings display reduced growth in cyclic tensile testing.
Abstract:
A method of producing carpet having the steps of: providing a carpet having a pile side formed from yarn fibers projecting through a primary backing layer, and an underside region comprising back stitch yarn fibers and the primary backing layer; applying effective repellency enhancing amounts of a first repellency enhancing compound to the pile side; applying a liquid repellency enhancing compound to the underside region to provide improved liquid barrier properties in the region; and applying separately a coating or latex layer to the underside region.
Abstract:
The present disclosure is directed toward a non-coated fabric for outdoor applications that is made up of a woven fabric and a chemical composition impregnated into the woven fabric. The woven fabric is made from multifilament yarns that are solution dyed and have a UV rating of at least 500 hours. The chemical composition includes a fluorocarbon polymer, a water repellent agent, a blocked isocyanate extender, and a fire resistant agent.
Abstract:
Tufted carpets bonded with thermoplastic binders and having improved resistance to fuzz formation due to removal of pile yarn filaments from tuft bundles comprise one or more backings, face yarn that forms a pile on one side and stitches on an opposite side, a thermoplastic binder that binds stitches and the backing or backings, and an organic polymer that bonds filaments of the stitches. Processes for making carpets comprise applying to a stitched side of a tufted backing a liquid stitch bind composition comprising an organic polymer component, removing a liquid component of the composition to bond filaments of the stitches and bonding stitches and one or more backings with a thermoplastic binder that is melted or applied as a melt in contact with the stitched side and the backing or backings and solidified.
Abstract:
Disclosed is a conductive, flame-retardant polymeric fabric composed of a woven or non-woven nylon, polyester or acrylic fabric. A surface of the fabric is provided with a flame-retardant layer applied by coating the flame-retardant directly onto the fabric surface. Disposed on the flame-retardant layer is a conductive metal applied preferably by vapor deposition. The resulting article not only has a surface resistance of less than one ohm/sq, but also the article has an Underwriter Laboratories very thin material (VTM) vertical bum test rating of zero rendering the article suitable for use as an electromagnetic interference shielding fabric.
Abstract:
An artificial turf filament has a cross-section that includes a central area and two wing areas integral with said central area. Further a bundle of a plurality of artificial turf filaments is proposed, wherein the artificial turf filaments are held together by one or more wrapping filaments wrapped around said artificial turf filaments. The wrapping filaments cross each other at cross points, and are bonded, preferably releasable bonded, to one another at said cross points. Also the wrapping filaments are bonded, preferably releasable bonded, to said artificial turf filaments.
Abstract:
A method of making a mat with a textile surface and an elastomer backing is provided. The method includes mixing elastomer crumbs and a binder, depositing the crumb/binder mixture in a layer (22), placing a textile surface element (34) on the layer to form a mat assembly, and pressing the mat assembly in a press (9) while setting the binder. The elastomer crumbs are consolidated to form an elastomer backing (2) that includes voids between the elastomer crumbs, and the textile surface element is bonded to the elastomer backing to form the upper textile layer (1) of the mat.
Abstract:
A heat reflective garment interlining laminate is provided that includes a continuous filament layer and a metallized thermoplastic film. The laminate is characteristically low-cost and suitable for such apparel applications as sports clothing, military clothing, camping gear, hunting/fishing clothing, and the like.
Abstract:
A backing or an intermediate layer for a surface covering is described which comprises a fused recycled material, wherein the material comprises a thermoplastic material, for instance, a vinyl material from a vinyl backed carpet or vinyl backed carpet manufacturing waste or both. Surface coverings containing the backing or intermediate layer of the present invention are also described as well as methods of making the backing or intermediate layer and methods of making the surface coverings containing the backing or intermediate layer of the present invention.
Abstract:
A covering for a floor, wall or ceiling surface includes tiles each having first and second discrete tile sections. The first section includes a primary backing exposed on one side of the tile forming a first discrete exposed surface portion and a plurality of yarns tufted into the primary backing with cut or loop yarns on the back side of the primary backing leaving backstitches forming a second discrete exposed surface portion of the first section. The primary backing and backstitches form the first and second surface portions, respectively, of the first section with aesthetic characteristics different from one another. The second section of the tile is formed of one of a woven fabric, a non-woven fabric and a tufted pile and which second section forms the remaining portion of the exposed surface of the tile.