A method for knitting a double-sided cloth comprising cut-pile fabrics with a circular knitting machine, wherein the double-sided cloth is composed of a first surface layer and a second surface layer. The method includes: operating by one of the needle beds to knit the first surface layer; then operating another one of the needle beds to knit a bottom yarn texture and a plurality of loops connected to the bottom yarn texture, and driving a plurality of trimmers disposed on the same needle bed to cut the plurality of loops to form the plurality of cut-pile fabrics, and constituting of the second surface layer by the plurality of cut-pile fabrics and the bottom yarn texture; and finally operating the two needle beds simultaneously, and connecting the first surface layer with the second surface layer by a plurality of connecting yarns to knit the double-sided cloth comprising the cut-pile fabrics.

A circular knitting machine knitting structure for knitting a double-sided cloth comprising a cut-pile fabric is provided, disposed corresponding to a gap of a circular knitting machine and including a first knitting group provided with a plurality of knitting bearded needles, and a second knitting group including a plurality of intarsia sinkers, two intarsia bearded needles disposed between any two intarsia sinkers, and a shearing bearded needle disposed between the two intarsia bearded needles. The shearing bearded needle includes a first yarn hooking section facing the gap and comprises a second needle latch, a yarn cutting section extending from the first yarn hooking section to form a cutter, and a first control section extending from the yarn cutting section to form at least one first butt. Through the foregoing knitting structure, the double-sided cloth with the cut-pile fabric on one side is knitted by the circular knitting machine.

Methods of making a male touch fastener product, by shearing distal portions of loops extending from a side of a flexible fabric, leaving fibers extending from the side of the flexible fabric in place of the sheared loops, the fibers extending to respective free distal ends, while leaving other loops extending from the side of the fabric intact, and then heating the distal ends with energy supplied by a linear energy source, such that resin of the distal ends flows to form enlarged heads on the extending fibers, while leaving at least some of the other loops intact. A male touch fastener product has a flexible fabric base with a broad side, and fibers extending from the broad side of the base. The fibers form both loops of fibers, each loop extending from the base at two spaced-apart points, and fiber segments extending from the base to respective distal fiber ends spaced from the base. Each distal fiber end forms an enlarged head of fiber resin for snagging other fibers.

Methods of making a male touch fastener product, by shearing distal portions of loops extending from a side of a flexible fabric, leaving fibers extending from the side of the flexible fabric in place of the sheared loops, the fibers extending to respective free distal ends, while leaving other loops extending from the side of the fabric intact, and then heating the distal ends with energy supplied by a linear energy source, such that resin of the distal ends flows to form enlarged heads on the extending fibers, while leaving at least some of the other loops intact. A male touch fastener product has a flexible fabric base with a broad side, and fibers extending from the broad side of the base. The fibers form both loops of fibers, each loop extending from the base at two spaced-apart points, and fiber segments extending from the base to respective distal fiber ends spaced from the base. Each distal fiber end forms an enlarged head of fiber resin for snagging other fibers.

A pile knit fabric for internal materials of vehicles may include a knit layer prepared by weaving ground yarns, on one surface thereof, and a pile layer prepared by interweaving pile yarns with ground yarn loops of the knit layer, on the other surface thereof and, thus, has excellent physical coupling force between the ground yarns and the pile yarns and has excellent abrasion resistance, scratch resistance and formability as well as soft tactility.

A pile knit fabric for internal materials of vehicles may include a knit layer prepared by weaving ground yarns, on one surface thereof, and a pile layer prepared by interweaving pile yarns with ground yarn loops of the knit layer, on the other surface thereof and, thus, has excellent physical coupling force between the ground yarns and the pile yarns and has excellent abrasion resistance, scratch resistance and formability as well as soft tactility.

A fastening device has a plurality of individual spaced-apart interlocking elements made of a plastics material, each of which projects towards one side from a carrier part by being provided with a stem part and a head part. The number of interlocking elements is 100 to 200 pieces per cm.sup.2, preferably 120 pieces per cm.sup.2. The diameter of the stem part of an interlocking element is 150 to 250 m, preferably 213 m. The height of the interlocking element, calculated from the root-side base on the carrier part to the head-part end, is 1200 to 2200 m, preferably 1500 to 1980 m. The dimension of the largest head-part diameter of an interlocking element is 200 to 400 m, preferably 220 to 290 m.

A fastening device has a plurality of individual spaced-apart interlocking elements made of a plastics material, each of which projects towards one side from a carrier part by being provided with a stem part and a head part. The number of interlocking elements is 100 to 200 pieces per cm.sup.2, preferably 120 pieces per cm.sup.2. The diameter of the stem part of an interlocking element is 150 to 250 m, preferably 213 m. The height of the interlocking element, calculated from the root-side base on the carrier part to the head-part end, is 1200 to 2200 m, preferably 1500 to 1980 m. The dimension of the largest head-part diameter of an interlocking element is 200 to 400 m, preferably 220 to 290 m.

A skin care fabric for medical, pharmaceutical or cosmetic use includes at least 80% by weight of microfibers that are a mixture of polyamide and polyester and have a diameter of less than 50 microns. Each microfiber is split to produce fine fibers closely packed in a parallel structure having a capillary effect and an abrasive effect. The fabric has a surface weight of less than 180 g/m.sup.2 and is loaded with medical, pharmaceutical or cosmetic active agents. The skin care fabric includes a warp-knitted fabric having a first surface and a second surface opposite the first surface, which is mechanically roughened and cut to become fluffy and yet short-haired and compact and resulting in a further surface enlargement of the fabric structure and a water absorbency of at least four times the surface weight of the fabric.

A skin care fabric for medical, pharmaceutical or cosmetic use includes at least 80% by weight of microfibers that are a mixture of polyamide and polyester and have a diameter of less than 50 microns. Each microfiber is split to produce fine fibers closely packed in a parallel structure having a capillary effect and an abrasive effect. The fabric has a surface weight of less than 180 g/m.sup.2 and is loaded with medical, pharmaceutical or cosmetic active agents. The skin care fabric includes a warp-knitted fabric having a first surface and a second surface opposite the first surface, which is mechanically roughened and cut to become fluffy and yet short-haired and compact and resulting in a further surface enlargement of the fabric structure and a water absorbency of at least four times the surface weight of the fabric.