Flame-retarding anti-static polyester and preparation method thereof

An anti-static, polyester fabric technology, applied in the field of fibers, can solve the problems of large specific surface area of ​​carbon nanotubes, poor dispersion effect, restricted performance, etc., and achieve the effect of improving intrinsic conductivity, developing voids, and maintaining conductivity.

Active Publication Date: 2019-09-20
HANGZHOU GAOXI TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, due to the large specific surface area and ultra-high aspect ratio of carbon nanotubes, and the strong van der Waals force between unmodified carbon nanotubes, carbon nanotubes are entangled with each other and difficult to separate, forming clusters or bundles. shape aggregates, thus showing a poor dispersion effect, which restricts the full play of its performance

Method used

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  • Flame-retarding anti-static polyester and preparation method thereof
  • Flame-retarding anti-static polyester and preparation method thereof
  • Flame-retarding anti-static polyester and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] (1) The water dispersion of 3 mass parts carboxylated carbon tubes, the water dispersion of 4 mass parts graphene oxide, the terephthalic acid of 0.05 mass parts molecular weight regulator, the ethylene glycol of 100 mass parts adding 46 mass parts Medium, high speed 300 stirring and mixing to form a dispersion. The carbon-to-oxygen ratio of the carboxylated carbon tubes is 2.5, and the mass concentration of the carboxylated carbon tube aqueous dispersion is 1%. The carbon-to-oxygen ratio of the graphene oxide is 2, the size is 1-10 μm, and the mass concentration of the graphene oxide aqueous dispersion is 1%;

[0031] (2) After mixing 0.5 parts of high DBP value nano carbon black and 1 part of low DBP value nano carbon black, add it to the mixed solution obtained in step (1), and carry out high-speed shear dispersion through an emulsifying homogenizer; wherein the high DBP value nano The DBP value of carbon black is 360, and the DBP value of low DBP value carbon black...

Embodiment 2

[0038] (1) The water dispersion of 3 mass parts carboxylated carbon tubes, the water dispersion of 4 mass parts graphene oxide, the terephthalic acid of 0.05 mass parts molecular weight regulator, the ethylene glycol of 100 mass parts adding 46 mass parts Medium, high speed 500 stirring and mixing to form a dispersion. The carbon-to-oxygen ratio of the carboxylated carbon tubes is 4, and the mass concentration of the carboxylated carbon tube aqueous dispersion is 2%. The carbon-oxygen ratio of the graphene oxide is 5, the size is 1-10 μm, and the mass concentration of the graphene oxide aqueous dispersion is 3%;

[0039] (2) After mixing 0.5 parts of high DBP value nano carbon black and 1 part of low DBP value nano carbon black, add it to the mixed solution obtained in step (1), and carry out high-speed shear dispersion through an emulsifying homogenizer; wherein the high DBP value nano The DBP value of carbon black is 400, and the DBP value of low DBP carbon black is 240;

...

Embodiment 3

[0046] (1) The water dispersion of 3 mass parts carboxylated carbon tubes, the water dispersion of 4 mass parts graphene oxide, the terephthalic acid of 0.3 mass parts molecular weight modifier, the ethylene glycol of 46 mass parts Medium, high speed 500 stirring and mixing to form a dispersion. The carbon-to-oxygen ratio of the carboxylated carbon tubes is 6, and the mass concentration of the carboxylated carbon tube aqueous dispersion is 4%. The carbon-to-oxygen ratio of the graphene oxide is 4, the size is 1-10 μm, and the mass concentration of the graphene oxide aqueous dispersion is 5%.

[0047] (2) After mixing 0.5 parts of high DBP value nano carbon black and 1.5 parts of low DBP value nano carbon black, add it to the mixed solution obtained in step (1), and carry out high-speed shear dispersion through an emulsifying homogenizer; wherein the high DBP value nano The DBP value of carbon black is 380, and the DBP value of low DBP carbon black is 280;

[0048] (3) Under ...

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Abstract

The invention discloses a flame-retarding anti-static polyester and a preparation method thereof. The preparation method comprises the following steps: through selecting carbon black with a specific DBP value, in a specific proportion, compounding with carbon nano tubes and graphene, forming a nano composite structure with good electrical conductivity; and after enabling the nano composite structure to perform in-situ copolymerization and melt spinning with terephthalic acid and ethylene glycol, preparing composite polyester fibers with both flame retardance and anti-static property. The preparation method is capable of, in the case of only adding trace carbon nano tubes (0.12%), trace graphene (0.2%) and little carbon black (1.2%), remarkably improving electrical conductivity and flame retardance of a traditional polyester, in addition, a product is good in spinnability, stable in performance, low in cost, and small in industrialization difficulty, and has a remarkable practical value.

Description

technical field [0001] The invention belongs to the field of fibers, and in particular relates to a flame-retardant and antistatic polyester and a preparation method thereof. Background technique [0002] In daily life, when two objects of different materials are in contact and then separated, static electricity can be generated. This is because one object loses a certain amount of charge and becomes positively charged, while the other object gains charge and becomes negatively charged. These charges are difficult to neutralize easily. It will gradually accumulate to form static electricity. The main ways to form static electricity in daily life are friction, induction and conduction. Static electricity itself is a very common phenomenon, but when the static electricity is accumulated and released violently, it is very easy to cause circuit breakdown, information interference, fire, electric shock and other phenomena, which can cause discomfort to the human body, increase d...

Claims

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Application Information

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IPC IPC(8): D01F6/92D01F1/07D01F1/09
CPCD01F1/07D01F1/09D01F6/92
Inventor 陈琛韩燚高超
Owner HANGZHOU GAOXI TECH CO LTD
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