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A kind of manufacturing method of multifunctional polyester staple fiber

A technology of polyester staple fibers and a manufacturing method, which is applied in the manufacturing field of multifunctional polyester staple fibers, can solve the problems of poor hygroscopicity and high resistivity, and achieve the effect of good dispersion performance.

Active Publication Date: 2018-11-27
ZHEJIANG MODERN TEXTILE IND RES INST
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The superior properties of polyester provide human beings with rich and colorful material conditions, but there are also many defects: the hygroscopicity of polyester is very poor, and the moisture absorption rate is only 0.4%; the resistivity is very high, and the resistivity is as high as 1015Ω·cm. is an insulator

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0034] Embodiment 1: a kind of manufacture method of multifunctional polyester staple fiber, adopts following steps:

[0035] A) 2 parts of white carbon black in parts by mass, 2 parts of nanoscale organic magnesium hydroxide whiskers, 1 part of sodium polypropionate, 4 parts of nanoscale barium acid, 4 parts of nanoscale organic conductive mica powder, 0.5 part of silicon Algae earth, 8 parts of p-hydroxybenzoic acid, 30 parts of ethylene glycol, 10 parts of 1, 3-propanediol, after mixing, the closed grinding reaction in a stirring ball mill at 60 ° C for 2 hours to obtain a flame-retardant, antistatic multi-functional alcohol, 70 ° C heat preservation use;

[0036] B) 4 parts by mass of nano-sized zinc oxide, 0.8 part of triazine-5 light stabilizer, 0.8 part of high temperature antioxidant 1098, 1 part of UV-327 ultraviolet absorber, 10 parts of ethylene glycol, 0.2 part of ethylene glycol Antimony alcohol, 1 part of sodium alginate and 0.2 part of ethanolamine are mixed, a...

Embodiment 2

[0040] Embodiment 2: a kind of manufacture method of multifunctional polyester staple fiber, adopts following steps:

[0041] A) 2.5 parts of white carbon black in parts by mass, 3 parts of nano-scale organic magnesium hydroxide whiskers, 1.5 parts of sodium polypropionate, 6 parts of nano-scale barium acid, 6 parts of nano-scale organic conductive mica powder, 1 part of silicon Algae earth, 10 parts of p-hydroxybenzoic acid, 38 parts of ethylene glycol, 12 parts of 1, 3-propanediol, after mixing, in a 70°C stirring ball mill for closed grinding reaction for 2.5h to obtain a flame retardant, antistatic multifunctional alcohol, 70°C heat preservation Stand-by, preferably used up within 48 hours;

[0042] B) 6 parts by mass of nano-sized zinc oxide, 1 part of triazine-5 light stabilizer, 1 part of high temperature antioxidant 1098, 1.5 parts of UV-327 ultraviolet absorber, 13 parts of ethylene glycol, 0.3 part of ethylene glycol Antimony alcohol, 1.5 parts of sodium alginate, a...

Embodiment 3

[0046] Embodiment 3: a kind of manufacture method of multifunctional polyester staple fiber, adopts following steps:

[0047] A) 3 parts of white carbon black in parts by mass, 4 parts of nano-scale organic magnesium hydroxide whiskers, 2 parts of sodium polypropionate, 8 parts of nano-scale barium acid, 8 parts of nano-scale organic conductive mica powder, 1.5 parts of silicon Algae earth, 12 parts of p-hydroxybenzoic acid, 45 parts of ethylene glycol, 15 parts of 1, 3-propanediol, after mixing, the airtight grinding reaction in a stirring ball mill at 80 ° C for 3 hours to obtain a flame-retardant, antistatic multifunctional alcohol, and heat preservation at 70 ° C use;

[0048] B) 8 parts by mass of nano-sized zinc oxide, 1.2 parts of triazine-5 light stabilizer, 1.2 parts of high temperature antioxidant 1098, 2 parts of UV-327 ultraviolet absorber, 15 parts of ethylene glycol, 0.4 part of ethylene glycol Antimony alcohol, 2 parts of sodium alginate and 0.8 part of ethanol...

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PUM

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Abstract

The invention relates to a multifunctional polyester stable fiber manufacturing method with functions of flame retardance, anti-static electricity and ageing resistance. The method includes: subjecting magnesium hydroxide whiskers, zinc oxide, conductive mica powder and the like with the flame retardant and antistatic functions to grinding reaction with glycol, p-hydroxybenzoic acid and the like to obtain multifunctional flame-retardant and antistatic alcohol; mixing anti-aging material of triazine-5 light stabilizer, high-temperature oxidation inhibitor and UV(ultraviolet)-327 ultraviolet light absorber with the glycol, sodium alginate and the like to obtain composite antiager after grinding reaction; subjecting certain proportion of purified terephthalic acid with the glycol and the multifunctional flame-retardant and antistatic alcohol to mixing and multiple copolycondensation, and continuously adding the composite antiager in the late esterification reaction to obtain the reactive-type multifunctional polyester with flame-retardant, antistatic and antiaging functions. The multifunctional polyester is melt and spun into multifunctional polyester stable fiber.

Description

technical field [0001] The invention relates to a method for producing multifunctional polyester staple fibers, which comprises the steps of taking flame-retardant, antistatic and antiaging modifiers into copolymerization reaction to produce multifunctional polyester, and melt spinning to produce multifunctional polyester staple fibers , belongs to the technical field of chemical fiber manufacturing. Background technique [0002] Polyester Polyethylene terephthalate (PET). Polyethylene terephthalate (PET) is produced by polycondensation of terephthalic acid (PTA) and ethylene glycol (EG). It is a crystalline saturated polyester, a milky white or light yellow, highly crystalline polymer with a smooth and shiny surface. PET has excellent physical and mechanical properties in a wide temperature range. The glass transition temperature of polyester is 69°C, the softening range is 230-240°C, and the melting point is 255-260°C. It has good fiber-forming properties, mechanical pro...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): D01F6/92D01F1/07D01F1/09D01F1/10D01D5/08D01D5/253C08G63/183
CPCC08G63/183D01D5/08D01D5/253D01F1/07D01F1/09D01F1/10D01F6/92
Inventor 韩文秀
Owner ZHEJIANG MODERN TEXTILE IND RES INST
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