Flame-retardant anti-static two-faced plush cloth
A flame retardant, antistatic, double-sided technology, applied in textiles and papermaking, weft knitting, knitting, etc., can solve the problems of fabric stiffness, increase softness, ensure flame retardant and antistatic, and good thermal protection performance Effect
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Embodiment 1
[0045] A flame-retardant and antistatic double-faced flannelette is prepared by blending the following components by weight: 54 parts of acrylic, 34.2 parts of cotton, 10 parts of nylon, and 1.8 parts of conductive silk.
[0046] The above-mentioned flame-retardant and antistatic double-sided flannelette includes a first surface layer and a second surface layer, and the first surface layer and the second surface layer are all made of blended weaving of acrylic fiber and cotton fiber, and the first surface layer and the second surface layer The nylon filaments are connected with the conductive filaments, and the nylon filaments and the conductive filaments are arranged parallel to each other, the interval between adjacent nylon filaments is 0.1 cm, and the interval between adjacent conductive filaments is 1 cm.
[0047] The above-mentioned flame-retardant and antistatic double-sided fleece is prepared as follows:
[0048] (1) Preparation of blended yarn: get acrylic fiber and c...
Embodiment 2
[0056] A flame-retardant and antistatic double-faced flannelette is made by blending the following components by weight: 55 parts of acrylic, 33 parts of cotton, 10 parts of nylon, and 2 parts of conductive silk.
[0057] The above-mentioned flame-retardant and antistatic double-sided flannelette includes a first surface layer and a second surface layer, and the first surface layer and the second surface layer are all made of blended weaving of acrylic fiber and cotton fiber, and the first surface layer and the second surface layer The nylon filaments are connected with the conductive filaments, and the nylon filaments and the conductive filaments are arranged parallel to each other, the interval between adjacent nylon filaments is 0.1 cm, and the interval between adjacent conductive filaments is 1 cm.
[0058] The preparation method of the above-mentioned flame-retardant and antistatic double-faced fleece is the same as in Example 1.
Embodiment 3
[0060] The performance detection result of the flame-retardant antistatic double-faced flannelette that adopts embodiment 1 to prepare is as follows:
[0061] According to the European flame retardant standard EN11612 test, the results are as follows:.
[0062] ①Heat protection performance: 180 degrees;
[0063] ②Shrinkage rate: 2.8% in warp direction and 2.3% in weft direction;
[0064] ③Vertical combustion (ignition on cloth surface): qualified
[0065] ④ Washing dimensional stability: -1.0% in warp direction, +3.0% in weft direction;
[0066] ⑤ Bursting strength of knitted fabric: 710KPA;
[0067] ⑥PH value: 6.3
[0068] ⑦Convective heat: Sampling 1 HTl24=8.4S
[0069] Sampling 2 HTl24=8.4S
[0070] Sampling 3 HTl24=8.4S
[0071] ⑧ Radiant heat: Sampling 1 RHTl24=21.7S
[0072] Sampling 2 RHTl24=21.6S
[0073] Sampling three RHTl24=21.3S
[0074] ⑨Contact heat: Sampling 1 Tt=9.2S
[0075] Sampling 2 Tt=9.6S
[00...
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