61 results about "Mohair" patented technology

The invention discloses a high-proportion mohair tweed production process. The high-proportion mohair tweed production process includes the first step of top dyeing and recombing, the second step of spinning, the third step of weaving and the fourth step of after finishing. The first step includes the substeps of ball loosening, dyeing, backwashing, silver mixing, secondary silver mixing, previous-one gilling, previous-two gilling, combing, later-one gilling, later-two gilling, later-three gilling and strip forming. The second step includes the substeps of silver mixing, first stitch sewing, second stitch sewing, third stitch sewing, fourth stitch sewing, roving, spinning, self-spooling, doubling, two-for-one twisting, yarn steaming and yarn forming. The third step includes the substeps of beaming, drafting and denting, weaving and matching detection. The fourth step includes the substeps of singeing, open-width boiling, tweed washing, water absorbing, open-width boiling, shaping, in-process inspection, cooked repair, brushing, shearing, in-process inspection, dewing, high-pressure steaming, pot steaming and finished product obtaining. High-proportion mohair tweed produced through the process is smooth in tweed surface, clear in line, silky in hand feeling, thin, cool, fine, smooth, natural and soft in floss, high in draping feeling and breathability and comfortable to wear.

The invention discloses a soft abrasion-resistant denim fabric which comprises a surface abrasion-resistant layer and an inner elastic soft layer, wherein the abrasion-resistant layer is woven of warp yarns and weft yarns; the warp yarns are blended and woven of khaki fibers and sateen fibers, and the weft yarns are blended and woven of mohair fibers and camel hair fibers; and the elastic soft layer is blended and woven of imported long lint fibers and acrylic fibers. The abrasion-resistant layer is made from soft and thick fabrics with good abrasion resistance, such as the khaki fiber, the sateen fibers, the mohair fibers and the camel hair fibers, so the abrasion-resistant layer is soft in handfeeling and abrasion-resistant and has no rough feeling; and the inner layer is blended and woven of the imported long lint fibers and the acrylic fibers, so the inner layer is soft, elastic and comfortable and in well fit with a body and has a very good warm-keeping effect.

The invention provides hollow fancy loop multifunctional health-care yarn and a preparation method thereof. The yarn comprises lotus root fibers, lyocell fibers, bamboo charcoal fibers, Clean cool fibers, water-soluble vinylon fiber filaments, PTT shape memory fiber filaments, anti-ultraviolet polyester fiber filaments, cashmere fibers and mohair fibers, or comprises stainless steel fiber filaments, mint fibers, long stapled cotton fibers, water-soluble vinylon filaments, colorful negative ion multifunctional viscose filaments, bamboo charcoal fibers and coconut carbon fibers. The yarn prepared through the preparation method has excellent in hygroscopicity, natural, antibacterial, resistant to odor and capable of absorbing moisture and discharging sweat, has deodorization and anti-aging functions and the like, also has excellent radiation resistance, anti-static performance and a negative ion emission function, enhances the immune function, activates cells, promotes metabolism, has deodorizing performance, prevents mites, odor and insects, generates negative ion characteristic and is resistant to water, oil and dirt, and fabrics are prevented from being influenced by various harmful bacteria and pollution.

The invention discloses stain repellent and durable fabric fibers which are formed by blending and weaving stain repellent fabric fibers and durable fabric fibers. The stain repellent and durable fabric fibers are characterized in that the stain repellent fabric fibers comprise mohair fibers and viscose, the durable fabric fibers comprise polypropylene fibers and whalen fibers, and the stain repellent and durable fabric fibers comprise, by weight, 42%-53% of the mohair fibers, 10%-13% of the viscose, 22%-26% of the polypropylene fibers and 15%-19% of the whalen fibers. The stain repellent and durable fabric fibers are formed by blending and weaving the stain repellent fabric fibers and the durable fabric fibers, the woven fabric fibers are high in strength and good in abrasive resistance and comfort, and have strong stain repellent performance, and the fabric is kept clean.

The invention provides a flowing light and color porous elastic gradient ring fancy yarn and a manufacturing method thereof. The yarn comprises a core yarn, a decoration yarn and a fixed yarn. The core yarn is a core-spun yarn made of a lightmax fiber, an antibacterial hollow polyester fiber, a natural colored cotton fiber and a spandex filament. The decoration yarn comprises a mohair fiber, a silver-loaded antibacterial polyester fiber and a water-soluble vinylon fiber filament. The fixed yarn is a bamboo charcoal anion viscose filament. The weight content of the lightmax fiber in the core yarn accounts for 15 to 80%, the weight content of the antibacterial hollow polyester fiber accounts for 10 to 75%, and the weight content of the natural colored cotton fiber accounts for 10 to 75%. Thefabric in the invention has natural antibacterial and anti-mite properties, good moisture absorption, moisture release, moisture permeability, breathability, comfortable performance, a draping property and stiffness, a bright and shining appearance, a smooth and soft hand feeling, a fast moisture absorption speed and fuller color absorption. The fabric is not easy to be wormed and rotted, can becompletely degraded in nature, and is a new textile fiber combining green health care and comfortable wearing into one body.

The invention discloses a wear-resisting high-strength fabric fiber which is woven by wear-resisting fabric fibers and high-strength fabric fibers in a blending mode, the wear-resisting fabric fibers comprise, percentage by weight, 18%-31% mohair fibers and 14%-19% camel fuzzy fibers, and the high-strength fabric fibers comprise, percentage by weight, 34%-37% gabardine fibers and 21%-26% polyester fibers. Due to the fact that the wear-resisting high-strength fabric fiber is woven by multiple kinds of wear-resisting fabric fibers and multiple kinds of high-strength fabric fibers in a blending mode, the wear-resisting high-strength fabric fiber has the advantages of being wear resistant, high in strength, durable, good in elasticity and good in warm keeping performance.

The invention discloses a method for processing mohair from ordinary fiber fabric, and belongs to the technical field of needled fabric processing. The method comprises the following steps: introducing the ordinary fiber fabric obtained by weaving or knitting ordinary fiber yarns into a napping needling machine, extracting yarns from the bottom surface of the ordinary fiber fabric by using a fork-shaped needle arranged on a needle plate of the napping needling machine, and depositing the extracted yarns into a hairbrush on a hairbrush curtain of the napping needling machine in a terry form to form terries protruded on base cloth on the surface of one side, facing to the hairbrush, of the ordinary fiber fabric so as to obtain single-sided terry fabric; introducing the single-sided terry fabric into a carding roll in a state that the terries face to the carding roll, tearing apart the terries by the carding roll to form straight hairs, and controlling the rotating speed of the carding roll to obtain single-sided straight-hair fabric with the straight hairs on a single side; introducing the single-sided straight-hair fabric into a needling machine for needling, and snarling and positioning base parts of the straight hairs and the base cloth by using a triangular needle on a needle bed of the needling machine to obtain a finished product. By the method, the processing efficiency is improved, resources are saved, and good texture is guaranteed.

The invention discloses a yarn spinning process of high-count combed pure mohair knitted yarns. The yarn spinning process comprises the following specific steps of: mixing hairs and adding oil, combing and forming strips, gilling, combining, gilling after combining, drawing, gilling after drawing, pre-roving, roving and spinning. By virtue of the manner, the pure mohair knitted yarns obtained by the yarn spinning process of the high-count combed pure mohair knitted yarns, disclosed by the invention, have good strength elongation property, and all indexes reach utilization requirements of a pure thin and light fabric; prepared knitted clothes are fine, clean and smooth, have a soft tone and a thin, cool, stiff and smooth hand feeling, and the product fills the blank in China.

The invention discloses a soft leather fabric which comprises a superficial soft layer, a leather layer and close-fitting layer, wherein the leather layer is located below the soft layer; the close-fitting layer is located below the leather layer; the soft layer is a thin-film layer which is formed by polyimide fibers; the leather layer is made of fish leather; the close-fitting layer is an elastic layer which is formed by mutually knitting warps and wefts; the warps are formed by blending and knitting tribute silk fibers and mohair fibers; and the wefts are formed by blending and knitting cashmere fibers and camel hair cloth fibers. The superficial soft layer is the thin-film layer which is formed by knitting the polyimide fibers, so that the mechanical property is good, abrasion is difficulty to occur and soft hand feel is provided; the leather layer is formed by the fish leather, so that the material is soft and the hand feel is good; the close-fitting layer is formed by blending and knitting elastic and soft fabrics, so that the prepared fabric is soft and comfortable to wear; and at the same time, according to the elastic fabric, the clothing is close-filling, warm and non-breathable.

The invention relates to an ultra-thin silkete Australian wool blended knitting yarn and processing technology thereof, wherein the yarn is 82NM/2 strands, comprising 60% of ultra-thin silkete Australian wool, 40% of mohair. The process includes: (1) pre-spinning: wool moisture regaining for 24-36 hours, with a moisture regaining rate of 24%, adding a fearnaughting oil to make the oil content in wool at 1%, the fearnaughting oil having proportion of antistatic agent:oil:water:cohesive force reinforcing agent at 0.5:1:8:0.5; (2) spinning: drafting for 19 times, with the speed of the fly frame at 8000r/min, single twist at 860T/M; (3) post-spinning, wherein the twist is designed to be 510T/mm. Advantages of the invention is that: (1) ultra-thin silkete Australian wool and mohair blended knitting is implemented, and difficulty in the process is overcome; (2) the product combines excellent characteristics of the two fibers, lowers cost and enhances performance/cost ratio thereof in the mean time; (3) the product is suitable for manufacturing high class clothing and ornament, having great cost advantage and market prospect.

The invention relates to a production technology for fancy yarn and a sweater with imitated fur handfeel. The production technology comprises raw material selection, wool humidifying, fore-spinning, roving, fancy twisting, napping, yarn steaming, yarn clearing and sweater production. For the fancy yarn with the imitated fur handfeel, an imitated fur effect is realized through mutual influence and restriction of raw materials including mohair, Australasian wool, high-elasticity Lycra fibers and the like.

The invention discloses an anti-fouling fabric knitted by warps and wefts, wherein the anti-fouling fabric is formed by knitting of the warps and the wefts. The warps are formed by knitting and blending of polyamide fibers and palace fibers, and the wefts are formed by knitting and blending of mohair fibers and tencel fibers. The warps comprise, by weight, 35%-41% of the polyamide fibers and 59%-65% of the palace fibers, and the wefts comprise, by weight, 76%-82% of the mohair fibers and 18%-24% of the tencel fibers. According to the anti-fouling fabric knitted by the warps and the wefts, the anti-fouling fabric is formed by knitting of the warps and the wefts and is compact in structure, the warps and the wefts are composed of the polyamide fibers, the palace fibers, the mohair fibers and the tencel fibers, and the anti-fouling fabric has the advantages of being windproof and waterproof, good in anti-fouling property, elastic and formfitting and cool and comfortable.

The invention discloses an anti-static garment. The anti-static garment comprises a surface anti-static fabric layer and an inner elastic comfortable fabric layer. The anti-static fabric layer are woven of organic conductive fiber and flax fiber through blending, and the elastic comfortable fabric layer is woven of warps and wefts, wherein the warps are woven of mercerized wool fiber and mercerized cotton fiber through blending, and the wefts are woven of mohair fiber and plumetis fiber through blending. According to the anti-static garment, the surface layer is woven of the organic conductive fiber and anti-static fiber through blending, so that the anti-static effects are good, and the hand feeling is nice and cool; the inner layer is woven of a plurality of fabric fibers through blending, thereby being elastic, close-fitting, good-hygroscopicity, breathable, soft and comfortable.

The invention discloses a high-strength blended chemical fabric. The high-strength blended chemical fabric comprises, by weight, 12%-16% of three-acetate fibers, 23%-27% of elastodiene fibers, 28%-32% of polyolefin elastic fibers and 25%-37% of mohair fibers, and the three-acetate fibers, the elastodiene fibers, the polyolefin elastic fibers and the mohair fibers are blended and woven with one another to form the high-strength blended chemical fabric. The high-strength blended chemical fabric has the advantages that the three-acetate fibers, the elastodiene fibers, the polyolefin elastic fibers and the mohair fibers are blended and woven with one another to form the fabric, accordingly, the woven fabric is good in abrasion resistance, corrosion resistance, ageing resistance and acid and alkali resistance, is washable, durable and elastic and can closely fit with a wearer, and the wearer feels comfortable when wearing the high-strength blended chemical fabric.

The invention discloses multifunctional corrosion-resistant fabric which is formed by blending and weaving four material fibers including vinylon fibers, nylon fibers, polyisoprene fibers and mohair fibers. The multifunctional corrosion-resistant fabric is composed of, by weight, 35-50% of the vinylon fibers, 15-20% of the nylon fibers, 11-16% of the polyisoprene fibers and 24-29% of the mohair fibers. The fabric is formed by blending and weaving the four material fibers including the vinylon fibers, the nylon fibers, the polyisoprene fibers and the mohair fibers, thereby having an obvious corrosion-resistant function, and the fabric has excellent wear resistance, soil resistance and high strength and is good in durability and high in practicability.

The invention discloses a fabric with a weather prompting device. The fabric comprises a weatherproof fabric layer on the surface layer, a warm-keeping fabric layer on the inner layer and a weather forecast wireless reading device arranged on the surface of the weatherproof fabric layer, wherein the weatherproof fabric layer is formed by knitting warps with wefts, the warps are blended and knitted from polyamide fibers and mohair fibers fibers, while the wefts are blended and knitted from viscoses and fibrilia; the warm-keeping fabric layer is blended and knitted from import long staples and mercerized cotton fibers; and one layer of weatherproof fabric is covered on the surface of the weather forecast wireless reading device. The weatherproof fabric on the surface layer is windproof, wearable, antistatic and anti-pilling; the warm-keeping fabric layer on the inner layer is warm, comfortable, soft and close-fitting; and the weather forecast wireless reading device mounted on the surface layer of the fabric is capable of saving the finding time of the users and providing effective weather forecast at any time, and also convenient for the users to prepare for going out.

The invention discloses a collagen-cashmere composite fabric with good drapability. The collagen-cashmere composite fabric is prepared from the following raw materials in parts by weight: 40-42 parts of cashmere fibers, 10-12 parts of tea leaf fibers, 14-17 parts of polyamide fibers, 16-18 pats of mohair, 8-10 parts of collagen powder, 2.1-2.4 parts of ethylene glycol diglycidyl ether, 7-9 parts of stems and bark of cottonrose hibiscus, 1-3 parts of konjac glucomannan, 0.5-0.8 part of nano-silver particles, 1.4-1.7 parts of 3-aminopropyltriethoxysilane, 2-3 parts of triethanolamine, 185-190 parts of 1-allyl-3-methylimidazole chlorine salt and a proper amount of water. According to a preparation method, oxygen low-temperature plasma is utilized for carrying out preprocessing, and ethylene glycol diglycidyl ether is used as a crosslinking agent for grafting modified collagen to the surface of the cashmere composite fiber; and the prepared collagen-cashmere composite fabric has good drapability and special functions of resisting ultraviolet light and bacteria, preventing worm damaging and the like, and the market prospect is wide.

The invention discloses a shell fabric with a manometer. The shell fabric comprises a warm keeping shell fabric layer at the surface layer, an elastic shell fabric layer at the inner layer, and an electronic manometer arranged on the surface of the warm keeping shell fabric layer, wherein the warm keeping shell fabric layer is blended and woven by cashmere fibers, mohair fibers and rabbit hair fibers; the elastic shell fabric layer is blended and woven by spun silk fibers and Melton fibers; and the surface of the electronic manometer is wrapped with a layer of base cloth and the electronic manometer is sewn on the surface of the warm keeping shell fabric layer through the base cloth. The shell fabric blended and woven by the cashmere fibers, the mohair fibers and the rabbit hair fibers is soft, comfortable in handfeel and good in warm keeping performance; the shell fabric blended and woven by the spun silk fibers and the Melton fibers is high in elasticity and keeps warm next to the skin; and as the electronic manometer is sewn on the surface of the shell fabric, the blood pressure of old people can be conveniently measured, and meanwhile, the electronic manometer is convenient to store so that the trouble of finding the electronic manometer is eliminated.

The present invention discloses a warming protection blend fiber. The warming protection blend fiber is blended and knitted by polytrimethylene terephthalate fiber, kapok fiber, ceramic thermal storage warming fiber and mohair fiber. The warming protection blend fiber comprises the components of, by weight, 17%-20% of polytrimethylene terephthalate fiber, 29%-38% of kapok fiber, 13%-16% of ceramic thermal storage warming fiber, and 32%-35% of mohair fiber. The warming protection blend fiber is blended and knitted by various fibers, has the characteristics of thermal storage and warming, health protection, moisture absorption and air permeability, and is comfortable to wear and is soft.

The invention discloses a non-asbestos brake block containing animal fibers. The non-asbestos brake block comprises, by weight, 14-16% of modified phenolic resin, 20-28% of fiber material, 53-61% of filling material and 5-8% of the animal fibers. The animal fibers are composed of one or more of sheep wool, cony hair, camel hair, goat hair, mohair, yakwool and silk, and the fiber material is composed of one or more of mineral fibers, glass fibers and paper fibers. The invention further discloses a manufacturing method for the non-asbestos brake block containing the animal fibers. The non-asbestos brake block containing the animal fibers is good in high-temperature resistance and abrasive resistance, the non-asbestos formula can have good strength in the cold-pressing performing process so that the purpose of transferring can be achieved, and the non-asbestos brake block containing the animal fibers is simple in manufacturing method and low in cost.

The invention discloses a spandex fiber-containing dry cleaning-resistant flame-retardant cashmere composite fiber. The fiber is prepared from 22-28 parts by weight of Tibetan antelope wool, 15-18 parts by weight of white goose down, 17-19 parts by weight of mohair fibers, 19-24 parts by weight of rice straw pulp fibers, 12-15 parts by weight of spandex fibers, 14-17 parts by weight of cuprammonium fibers, 2-4 parts by weight of nanometer far-infrared ceramic powder, 1.2-3.5 parts by weight of decabromodiphenyl oxide, 7-9 parts by weight of polypropylene glycol, 3-5 parts by weight of acrylamide, 2-3 parts by weight of pregelatinized starch, 0.4-0.8 parts by weight of magnesium chloride, 0.5-0.9 parts by weight of nanometer titanium dioxide, 1-3 parts by weight of prepared rehmannia root, 2-5 parts by weight of dendranthema indicum var aromaticum, 3-4 parts by weight of poria cocos, 85-95 parts by weight of 1-ethyl-3-methylimidazolium acetate, 90-110 parts by weight of 1-allyl-3-methylimidazolium chloride, 20-24 parts by weight of an auxiliary agent and a proper amount of water. Multiple types of fibers and Tibetan antelope wool are blended and spandex fibers and cuprammonium fibers are added into the mixture so that the cashmere composite fiber is obtained. The cashmere composite fiber has characteristics of dry cleaning resistance of spandex fibers and antistatic properties of cuprammonium fibers. Through use of other fibers and effective components, the cashmere composite fiber has the advantages of flame retardation, wear resistance, good serviceability, good processability and wide application scope.

The invention relates to an mohair blended knitting yarn and processing technology thereof, wherein the yarn is 82NM/2 strands, comprising 60% of mohair, 40% of silkete Australian wool. The process includes: (1) pre-spinning: wool moisture regaining for 36 hours, with a moisture regaining rate of 24%, adding a fearnaughting oil to make the oil content in wool at 1%, the fearnaughting oil having proportion of antistatic agent:oil:water:cohesive force reinforcing agent at 0.5:1:8:1; (2) spinning: drafting for 19 times, with the speed of the fly frame at 7000r/min, single twist at 880T/M; (3) post-spinning, wherein an electronic yarn cleaner is provided for the winding, and yarns are spliced under air pressure between 0.6-0.8 Mpa. Advantages of the invention is that: (1) blended knitting of mohair with other fibers is implemented, and technological guarantee is provided for expanding application scope of mohair; (2) the product combines excellent characteristics of the two fibers, lowers cost, and enhances performance/cost ratio thereof in the mean time; (3) the product is suitable for manufacturing high class clothing and ornament, having great cost advantage and market prospect.

The invention discloses a fabric fiber easy to dye. The fabric fiber easy to dye is formed by blending of multiple kinds of fabric fibers easy to dye in a woven mode. The fabric fiber easy to dye comprises, by weight, 15%-18% of viscose, 17%-21% of crepe fibers, 31%-46% of mohair fibers, 9%-14% of fibrilia and 13%-16% of cotton fibers. The fabric fiber easy to dye is formed by blending of multiple kinds of fabric fibers easy to dye in the woven mode, the woven fabric fiber is easy to dye and good in color, color fading is avoided, and the fabric is capable of absorbing moisture, breathable, smooth and comfortable.

The invention provides a fiber fabric which can be easily dyed. The fiber fabric comprises Shengma fiber, cotton fiber, jade fiber, aluminum fiber, nano-fiber, viscose fiber, crepe fiber, mohair fiber and imported long lint fiber. The fabric has the advantages of being convenient to dye, good in color, free of color fading, high in strength and elastic recovery rate, strong in anti-wrinkle property, good in anti-wearing property, good in natural luster and fresh in dying color. The fabric has moisture absorption and ventilation functions, is smooth and comfortable, and is strong in anti-fouling property, causes no pollution to the environment, and is both safe and reliable.