The invention disclosed a high-elastic, lightweight and comfortable underwear and a production process thereof, comprising underwear inner-layer and underwear outer-layer, wherein elastomeric strips are provided between the underwear inner-layer and underwear outer-layer. The production process comprises the following steps: 1) printing the elastomeric strip shapes; 2) pressing elastomeric strips; 3) cutting residual material; 4) finishing garment. Compared to the prior, the invention has the following advantageous effects: the invention is with simple structure and easy to manufacture, the invention can provide sufficient support and sufficient binding force for users while the skin is not be squeezed, the elastomeric strips can replace traditional rubber bands, steel rings, stabilized yarn, and etc, which has high-quality support performance to achieve shaping effect, and has excellent elasticity and resilience to facilitate design and manufacture with no worries of size, moreover, the invention is washable and not easy to deform.

The invention disclosed a high-elastic, lightweight and comfortable underwear and a production process thereof, comprising underwear inner-layer and underwear outer-layer, wherein elastomeric strips are provided between the underwear inner-layer and underwear outer-layer. The production process comprises the following steps: 1) printing the elastomeric strip shapes; 2) pressing elastomeric strips; 3) cutting residual material; 4) finishing garment. Compared to the prior, the invention has the following advantageous effects: the invention is with simple structure and easy to manufacture, the invention can provide sufficient support and sufficient binding force for users while the skin is not be squeezed, the elastomeric strips can replace traditional rubber bands, steel rings, stabilized yarn, and etc, which has high-quality support performance to achieve shaping effect, and has excellent elasticity and resilience to facilitate design and manufacture with no worries of size, moreover, the invention is washable and not easy to deform.

An improved wet processing method for producing improved terry fabrics is provided. Woven fabric is treated based on enzymatic treatment process including de-sizing using optimized dosage of predetermined de-sizing ingredients, washed and bio-washed using optimized dosage of bio-washing ingredients. Enzyme treated fabric is pre-treated and subjected to hot air beat-up process comprising mechanically treating pre-treated fabric with optimized hot air beat-up parameters. Air is blown onto pre-treated fabric from both directions for predetermined duration and at predetermined frequency causing to and fro movement of fabric in tumbling chambers of tumbling machine resulting in an instantaneous impact produced on every pile loop of pre-treated fabric such that fibers rearrange in a path of least resistance to produce relaxed, open and aligned fiber structure in the fabric. Mechanically treated hot air-beaten up fabric is dyed and includes finishing the dyed fabric with softener and subjected to tumbling using optimized finishing parameters.

Disclosed are a polyester cotton-like yarn-dyed fabric, and a manufacturing method and application thereof. The polyester cotton-like yarn-dyed fabric is interwoven by warp and weft, the warp adopts dyed polyester as a covering layer and low-temperature spandex as a core-spun yarn of a core yarn, a weight ratio of the polyester to the low-temperature spandex is 4-49:1, and the polyester is subjected to alkali deweighting treatment to form an eroded surface. The polyester cotton-like yarn-dyed fabric has good cotton feeling, high elasticity, high color fastness and low ironing shrinkage rate, and is suitable for making high-quality clothing, especially shirts. The manufacturing method of the yarn-dyed fabric is energy-saving and emission-reducing, and can manufacture a novel polyester yarn-dyed fabric with low ironing shrinkage rate, high color fastness and cotton-like hand feeling. Use of the yarn-dyed fabric for making clothing such as shirts increases the selectivity and functionality.

A method for manufacturing fabric with flat screen and digital printed patterns includes: singeing, pretreatment, flat screen scraping sizing, drying, pattern printing, humidification, steaming treatment, washing, and non-ironing and soft setting. The pretreatment is a biological enzyme pretreatment process including: cloth feeding at 75° C., dipping, scouring and bleaching in a working fluid, heating to 90° C. for treatment of 30 minutes, draining, hot water washing and cold water washing. A shortened process flow can be realized, and the positioned sizing that uses a flat screen to scrape a sizing agent to a pattern position to be digital spray-printed on instead of traditional full-width sizing for sizing and printing, which greatly reduces the amount of sizing agent used, lowers production cost and reduces waste water pollution, and solves problem that the fabric is mottled caused by the application of sizing agent in areas without printed pattern due to full-width sizing.

A method for manufacturing fabric with flat screen and digital printed patterns includes: singeing, pretreatment, flat screen scraping sizing, drying, pattern printing, humidification, steaming treatment, washing, and non-ironing and soft setting. The pretreatment is a biological enzyme pretreatment process including: cloth feeding at 75° C., dipping, scouring and bleaching in a working fluid, heating to 90° C. for treatment of 30 minutes, draining, hot water washing and cold water washing. A shortened process flow can be realized, and the positioned sizing that uses a flat screen to scrape a sizing agent to a pattern position to be digital spray-printed on instead of traditional full-width sizing for sizing and printing, which greatly reduces the amount of sizing agent used, lowers production cost and reduces waste water pollution, and solves problem that the fabric is mottled caused by the application of sizing agent in areas without printed pattern due to full-width sizing.

This invention relates to an elastic functional textile fabric and dyeing and finishing method thereof. The fabric provided mainly comprises at least one elastic yarn. An ironing machine is used to process the fabric to maintain warp-wise smoothness and flatness. After ironing, a sanforizing machine is used to sanforize the fabric, and then the fabric undergoes a scutching procedure. Then, a setting machine is used to preset the scutched fabric, the fabric undergoes a dyeing procedure to form an elastic fabric. Then, the elastic fabric undergoes a second scutching procedure and a second setting procedure to form the finished product as the elastic functional textile fabric according to this invention. Through the production method disclosed above, problematic situations like insufficient weft weight, unsmooth fabric surface, pitting surface, uneven dyeing, side shading, poor fastness, chromatic aberration, dyelot chromatism, insufficient elasticity, as well as spray burns, etc can be dramatically reduced.

This invention relates to an elastic functional textile fabric and dyeing and finishing method thereof. The fabric provided mainly comprises at least one elastic yarn. An ironing machine is used to process the fabric to maintain warp-wise smoothness and flatness. After ironing, a sanforizing machine is used to sanforize the fabric, and then the fabric undergoes a scutching procedure. Then, a setting machine is used to preset the scutched fabric, the fabric undergoes a dyeing procedure to form an elastic fabric. Then, the elastic fabric undergoes a second scutching procedure and a second setting procedure to form the finished product as the elastic functional textile fabric according to this invention. Through the production method disclosed above, problematic situations like insufficient weft weight, unsmooth fabric surface, pitting surface, uneven dyeing, side shading, poor fastness, chromatic aberration, dyelot chromatism, insufficient elasticity, as well as spray burns, etc can be dramatically reduced.

The present invention provides a modified fibroin fiber having a shrinkage history of being irreversibly shrunk after spinning, the modified fibroin fiber containing modified fibroin, wherein a fiber diameter of a raw material fiber before being irreversibly shrunk exceeds 25 μm.

The invention relates to a rope made of textile fiber material, comprising a rope core and a sheath surrounding the rope core, wherein the sheath, an intermediate sheath located between the sheath and the rope core and/or a reinforcement located between the sheath and the rope core comprise(s) a twine of excess length, the twine of excess length being formed in that it comprises at least a first yarn and a second yarn which are twisted together, the first yarn having a greater length than the second yarn, measured in an untwisted state of a unit length of the twine. In a further aspect, the invention relates to a method of manufacturing a twine of excess length for the above-mentioned rope.