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Fire-retardant fiber blended yarn, preparation method of fire-retardant fiber blended yarn and fabrics of fire-retardant fiber blended yarn

A technology of flame retardant fibers and blended yarns, applied in the field of flame retardant fibers, can solve the problems of easy generation of static electricity, fiber elongation of meta-aramid fibers, and wet feeling, etc. Significant combustion effect and improved air permeability

Active Publication Date: 2013-08-21
北京邦维普泰防护纺织有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Copolyamide fiber is currently a commonly used flame-retardant fiber in the market. The yarn composed of copolyamide fiber has good wear resistance and excellent flame retardancy, but it still has some shortcomings. Due to the relatively high elongation of copolyamide fiber, In particular, the fiber elongation of the meta-aramid fiber is relatively large, and it is easy to be accidentally elongated during the spinning process, and its spinnability and antistatic properties are not ideal
Copolyamide fibers and other flame-retardant fibers are blended and processed, although the above-mentioned shortcomings are overcome to a certain extent, but the fibers are hard and not soft, and the fabrics made of such fibers are uncomfortable to wear. Poor air permeability, long-term wearing will feel wet, and it is easy to generate static electricity

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] A flame-retardant fiber blended yarn, raw materials include a cortex and a core layer; wherein the cortex is composed of 20% phenolic fiber, 25% flame-retardant acrylic fiber, 30% copolyamide fiber, and 25% antistatic synthetic fiber. The core layer is composed of 10% wool fiber, 40% nylon fiber and 50% polyester fiber by weight. The weight contents of the skin layer and the core layer are 20% and 80% respectively.

[0025] The preparation method of above-mentioned flame-retardant fiber blended yarn, comprises the following steps:

[0026] (1) Mixing and cleaning: first spray phenolic fibers and flame-retardant acrylic fibers with an antistatic agent solution with a concentration of 5% (weight) for pretreatment, and the spraying amount of the solution is 15% of the weight of the fibers. hours, the workshop humidity is controlled at about 75%; then phenolic fiber, flame-retardant acrylic fiber, copolyamide fiber, and antistatic synthetic fiber are mixed as raw materials...

Embodiment 2

[0037] A flame-retardant fiber blended yarn, raw materials include a cortex and a core layer; wherein the cortex is composed of 25% phenolic fiber, 20% flame-retardant acrylic fiber, 30% copolyamide fiber, and 25% antistatic synthetic fiber. The core layer is composed of 20% wool fiber, 30% nylon fiber and 50% polyester fiber by weight. The weight contents of the skin layer and the core layer are 30% and 70% respectively.

[0038] The preparation method of above-mentioned flame-retardant fiber blended yarn, comprises the following steps:

[0039] (1) Mixing and opening and cleaning: first spray phenolic fiber and flame-retardant acrylic fiber with an antistatic agent solution with a concentration of 10% (weight) for pretreatment, and the spraying amount of the solution is 12% of the weight of the fiber. Hours, the workshop humidity is controlled at about 75%; then the raw materials are mixed with phenolic fiber, flame-retardant acrylic fiber, copolyamide fiber, and antistatic...

Embodiment 3

[0050] A flame-retardant fiber, raw materials include a skin layer and a core layer; wherein the skin layer is composed of 30% phenolic fiber, 20% flame-retardant acrylic fiber, 30% copolyamide fiber, and 20% antistatic synthetic fiber. The core layer is composed of 20% wool fiber, 35% nylon fiber and 45% polyester fiber by weight. The weight content of the skin layer and the core layer is 25% and 75% respectively.

[0051] The preparation method of above-mentioned flame retardant fiber, comprises the following steps:

[0052] (1) Mixing and opening and cleaning: first spray phenolic fiber and flame-retardant acrylic fiber with an antistatic agent solution with a concentration of 8% (weight) for pretreatment. The amount of solution sprayed is 13% of the weight of the fiber. hours, the workshop humidity is controlled at about 75%; then phenolic fiber, flame-retardant acrylic fiber, copolyamide fiber, and antistatic synthetic fiber are mixed as raw materials; then fiber dispers...

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Abstract

The invention relates to fire-retardant fiber blended yarn, a preparation method of the fire-retardant fiber blended yarn and fabrics of the fire-retardant fiber blended yarn. Double-layer fibers are used in the fire-retardant fiber blended yarn which comprises a surface layer and a core layer, the surface layer is composed of, by weight percentage, 20-30% of phenolic fibers, 20-25% of fire-retardant acrylic fibers, 30-40% of copolyamide fibers, 20-30% of antistatic synthetic fibers in a blending mode, the characteristics of the fibers can be sufficiently utilized, the problem existing in single fibers is solved, the spinnability of the fibers is improved, and a fire-retardant effect is improved. The core layer is composed of, by weight percentage, 10-20% of wool fibers, 30-40% of nylon fibers and 40-50% of polyester fibers, cost is lowered, and the air permeability of the fibers is improved. Fire retardant soaking treatment is conducted on the fibers of the core layer, and the core layer is made to have the fire-retardant capacity. The fire-retardant fiber blended yarn can be applied to clothing, home textiles, sports products, health care products, and fire-proof fabrics.

Description

[0001] technical field [0002] The invention relates to the field of flame-retardant fibers, in particular to a flame-retardant fiber blended yarn, a preparation method thereof, and fabrics and fabrics thereof. Background technique [0003] The development of science and technology is a double-edged sword. While bringing convenience and improving the quality of life to human beings, it also has a negative impact on human living and working environments. For example, in some workplaces such as high temperature and electric welding, it has brought potential hazards to the living environment of living and operating personnel. The sparks of electric welding can easily cause damage or burning of workers' clothing, which has brought hidden dangers and damage to the body. Therefore, it is necessary to develop flame-retardant fibers. [0004] Copolyamide fiber is currently a commonly used flame-retardant fiber in the market. The yarn composed of copolyamide fiber has good wear res...

Claims

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Application Information

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IPC IPC(8): D02G3/04D02G3/36D06M15/09D06M101/30D06M101/28D06M101/34
Inventor 杨小波
Owner 北京邦维普泰防护纺织有限公司
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