A kind of antistatic pretreatment solution for polyester digital inkjet printing and its application

A digital inkjet and antistatic technology, applied in the field of textile printing and dyeing, can solve the problems of poor binding fastness, large energy consumption, lack of binding fastness, etc., achieve good durable antistatic performance, reduce energy consumption, and excellent color fastness Effect

Active Publication Date: 2021-11-02
CHANGZHOU TEXTILE GARMENT INST
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the lack of good bonding fastness between the existing polyester antistatic agent and polyester fiber, it is easy to be removed together with the pretreatment agent in the process of reduction cleaning and water washing, especially in the presence of other pretreatment agents, polyester antistatic The combination fastness of the inkjet printing agent and polyester fiber is even worse. Therefore, it is difficult to obtain good antistatic property after inkjet printing, and it does not have washing resistance, and its durable antistatic effect is not good.
[0005] At the same time, in the prior art, in order to prepare ink-jet printed polyester fabric with good durable antistatic effect, it usually needs to be processed through a long industrial route, such as the two-bath process processing method, which is harmful to water, electricity, steam and other energy sources. Large consumption, not an ideal scientific production and processing method

Method used

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  • A kind of antistatic pretreatment solution for polyester digital inkjet printing and its application
  • A kind of antistatic pretreatment solution for polyester digital inkjet printing and its application
  • A kind of antistatic pretreatment solution for polyester digital inkjet printing and its application

Examples

Experimental program
Comparison scheme
Effect test

Synthetic example 1

[0038] Mix 8.0kg butyl acrylate, 2.0kg styrene, 1.0kg ammonium persulfate, 4.0kg emulsifier AES and 39.0kg water, and fully stir to form an emulsion to obtain emulsion A1;

[0039] Take 36.0kg of emulsion A, 23.0kg of allyl alcohol polyoxyethyl polyoxypropyl ether (p=3, q=3) and 15.0kg of water, mix them, and fully stir them into an emulsion to prepare emulsion B1;

[0040] In the reaction device, add 18.0kg of emulsion A1, 1.0kg of ammonium persulfate, and 7.0kg of water to mix, and heat up to 80°C while stirring, and continue to react at this reaction temperature for 30 minutes; then slowly add 74.0kg of Emulsion B1: After the addition is complete, continue to react at 80-85°C for 100 minutes, and cool to obtain the pre-condensation body A.

Synthetic example 2

[0042] Mix 12.0kg butyl acrylate, 4.0kg styrene, 1.0kg ammonium persulfate, 3.2kg emulsifier AES and 33.8kg water, and fully stir to form an emulsion to obtain emulsion A2;

[0043] Take 36.0kg of emulsion B1, 19.0kg of allyl alcohol polyoxyethyl polyoxypropyl ether (p=2, q=4) and 15.0kg of water, mix them, and fully stir them into an emulsion to prepare emulsion B2;

[0044] In the reaction device, add 18.0kg of emulsion A2, 0.5kg of ammonium persulfate, and 11.5kg of water to mix, and heat up to 80°C while stirring, and continue to react at this reaction temperature for 30 minutes; then slowly add 70.0kg of Emulsion B2: After the addition is complete, continue to react at 80-85°C for 120 minutes, and cool to obtain the pre-condensation body B.

Embodiment 1

[0047] 2.5kg of precondensate A, 1.0kg of pentaerythritol tetraacrylate, 0.4kg of carboxymethylcellulose, 0.2kg of potassium persulfate and 95.9kg of water were mixed to prepare pretreatment solution C1. Then the polyester fabric is padded with the pretreatment solution C1 and dried; then the required printing pattern is printed with an inkjet printer, and the inkjet ink is the D2551-R disperse red ink of DuPont Company of the United States. After the printing is completed, it is dried and baked on a heat-setting machine. The baking temperature is 170°C and the baking time is 60s. Finally, the above-mentioned polyester fabric was washed on a washing machine at a washing temperature of 80° C. and a washing time of 10 minutes; after washing, it was dried on a drying device to obtain an antistatic inkjet printed fabric.

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Abstract

The invention discloses an antistatic pretreatment solution for polyester digital ink-jet printing. Thickener, 0.1-0.3% peroxide, the balance is water; the polyester fabric is padded with the pretreatment solution before inkjet printing, and the polyester fabric treated with this solution can obtain deep color depth after inkjet printing , excellent color fastness and excellent antistatic effect, and the antistatic performance has durability. At the same time, the processing equipment used in the present invention is all conventional equipment, which is a low-energy, environmentally friendly one-step processing technology.

Description

technical field [0001] The invention relates to the technical field of textile printing and dyeing, in particular to an antistatic pretreatment solution for polyester digital inkjet printing and its application in treating polyester fabrics. Background technique [0002] In the prior art, the common processing flow when carrying out digital inkjet printing to polyester fabric is: first padding pretreatment solution, drying; Then use disperse dye ink to print and dry on the digital inkjet printing machine; Then Carry out high-temperature dye hair color treatment and post-treatment (such as reduction cleaning or hot water washing), and finally make printed products by drying. [0003] There is a problem in the process of polyester fabric treatment. As a kind of hydrophobic fiber, polyester fiber is easy to generate static electricity, which affects the wearing performance. In order to improve the antistatic properties of polyester fabrics, manufacturers usually pad dyed or pr...

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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Patent Type & Authority Patents(China)
IPC IPC(8): D06P1/52D06P1/613D06P1/48D06P1/651D06P1/16D06P5/30C08F283/06C08F220/18
Inventor 曹红梅杨振铭艾丽朱亚伟
Owner CHANGZHOU TEXTILE GARMENT INST
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