A self-fastening fabric at least includes a micro-fibriform loop fabric structure and a fibriform pile fabric structure; a surface of the micro-fibriform loop fabric structure has a plurality of micro-fibriform loops formed through a heat shrinking treatment; and a surface of the fibriform pile fabric structure has hairiness and a plurality of restraining fibers respectively having a curved status and/or a bead distal end formed through a singeing treatment; when the micro-fibriform loop fabric structure on the first surface and the fibriform pile fabric structure on the second surface are in contact, the micro-fibriform loops and the restraining fibers are mutually hooked or tangled, so that a fastening effect is formed between the first surface and the second surface.

A transaction within a computer program or computer application comprises program instructions performing multiple store operations that appear to run and complete as a single, atomic operation. The program instructions forming a current transaction comprise a transaction begin indicator, a plurality of instructions (e.g., store operations), and a transaction end indicator. A near-end of transaction indicator is triggered based on a speculative look ahead operation such that an interfering transaction requiring a halt operation may be delayed to allow the current transaction to end. A halt operation, also referred to as an abort operation, as used herein refers to an operation responsive to a condition where two transactions have been detected to interfere where at least one transaction must be aborted and the state of the processor is reset to the state at the beginning of the aborted transaction by performing a rollback.

A method for making tubic fabrics is provided. The method includes using metallized yarns including at least one ribbon which is less than 0.7 mm thick, the ribbon being preferably spiral-wound with at least one support thread. The method also includes using non-metallized main yarns, as well as making a warp beam including the metallized yarns and said main yarns, the warp beam having a linear thread density preferably higher than 40 threads/cm. The method may also include a step of weaving in which a tubic fabric is made by means of the beam warp with the metallic yarns arranged exclusively on the warp.

Embodiments of the present invention are directed to a tri-core yarn including a core including an elastomeric filament, a first cover, and a second cover, and a fiber sheath covering the core, wherein the first cover and the second cover are each wrapped around the elastomeric filament.

An elastic fabric made by a plurality of rubber threads, first elastic wefts, second elastic wefts, first wraps, high-tensile nylons and second wraps. The rubber thread, the first elastic weft, the second elastic weft are elastic, and the first elastic weft, and the second elastic weft are knitted across and interlaced with the rubber thread at right angles such that the elastic fabric is configured to be stretched in all directions. The first elastic weft and the second elastic weft are wrapped on at least three rubber threads to form a plurality of breathing holes therebetween, and the first wrap and the second wrap are wrapped along the single rubber thread such that the elastic fabric is configured to have the solid structure and the great ventilation effect simultaneously.

A textile is provided that includes a plurality of warp yarns and a plurality of weft yarns woven together, the plurality of warp yarns each including an elastic warp filament and a non-elastic warp filament, and the plurality of weft yarns each including an elastic weft filament and a non-elastic weft filament. At least one of the elastic warp filament, the non-elastic warp filament, the elastic weft filament, and the non-elastic weft filament includes a hydrophobic material. The materials of the elastic warp filament, the non-elastic warp filament, the elastic weft filament, and the non-elastic weft filament are selected such that the textile has a high elastic stretchability in at least one of a weft direction and a warp direction. A garment including the textile, and methods for manufacturing the textile and the garment, are also disclosed.

A textile is provided that includes a plurality of warp yarns and a plurality of weft yarns woven together, the plurality of warp yarns each including an elastic warp filament and a non-elastic warp filament, and the plurality of weft yarns each including an elastic weft filament and a non-elastic weft filament. At least one of the elastic warp filament, the non-elastic warp filament, the elastic weft filament, and the non-elastic weft filament includes a hydrophobic material. The materials of the elastic warp filament, the non-elastic warp filament, the elastic weft filament, and the non-elastic weft filament are selected such that the textile has a high elastic stretchability in at least one of a weft direction and a warp direction. A garment including the textile, and methods for manufacturing the textile and the garment, are also disclosed.

A fabric with wefts that include hard yarns and elastomeric yarns in a predetermined arrangement such that at least one hard yarn is alternately arranged with at least one elastomeric yarn, the elastomeric yarns having a greater shrinkage ratio than that of the hard yarns; the hard yarns form under portions and over portions with respect to warps, the under portions being formed when the hard yarns pass along the back side of the warps and defining loop portions, and the over portions being formed when the hard yarns pass along the front side of the warps and define connection portions, wherein for each hard yarn, the number of warps passed by the loop portion is at least 6, and the elastomeric yarns form under portions and over portions with respect to the warps in a weave that is tighter than the weave of the hard yarns.

A protective woven fabric of the present invention includes super fiber yarns. The warp of the woven fabric is a covered yarn (1, 4, 5) composed of two or more twisted inorganic filament yarns as core yarns (2a, 2b) and one or more super fiber yarns (3, 3a, 3b, 3c) as covering yarns that are wound and twisted around the core yarns (2a, 2b), and a weft thereof is a super fiber yarn. Preferably, the covered yarn is a W covered yarn in which a twist coefficient K of the covering yarns with respect to the core yarns is 2000 to 30000. Due to this, it is possible to provide a protective woven fabric that, even when the warp and the weft is squeezed or rubbed by the reed, heddles, etc., of a loom, has few defects such as fluff or fiber aggregates and which has a satisfactory weaving pattern while retaining a high protective function. A force required to cut this woven fabric is 50 N or more, preferably 60 N or more, as measured through a cutting test in accordance with JIS-T8052, even when the fabric is a monolayer woven fabric.

A swim suit (1), particularly for competition swimming, comprising an outer shell (2) suitable to cover at least part of the body trunk and of the legs of a swimmer, wherein the outer shell (2) is made of a flexible stretchable fabric (3) and, in at least a region of the shell, carbon fibers are woven into the fabric.