Method for preparing conductive glass fibers through chemical reaction method

A conductive fiber and chemical reaction technology, which is applied in the field of glass conductive fiber preparation by chemical reaction method, can solve the problems of inability to obtain conductive properties, low adsorption fastness, and excellent conductive fibers, and achieve less fiber performance loss, reliable quality, and easy operation. simple effect

Inactive Publication Date: 2016-08-24
ZHONGYUAN ENGINEERING COLLEGE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to provide a method for preparing glass conductive fibers by chemical reaction method, which solves the problems in the prior art that the fibers have low adsorption fastness to metal sulfides and cannot produce conductive fibers with excellent electrical conductivity

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] The glass conductive fiber is prepared by a chemical reaction method, and the steps are as follows:

[0016] (1) The cleaned alkali-free glass fiber is subjected to vacuum plasma treatment, the working atmosphere is air, the vacuum degree of the back and bottom is 5Pa, the working pressure is 100Pa, the discharge power is 200W, and the treatment time is 2 minutes;

[0017] (2) the glass fiber after the plasma treatment that step (1) obtains is immersed in the carboxylated chitosan aqueous solution of 0.5% in mass concentration, soaks 3 hours at 30 ℃, after soaking and taking out, immerse into the carboxylated chitosan solution that mass concentration is 0.05% Soak in glutaraldehyde solution for 2 hours at 30°C, take it out, rinse thoroughly with water, and dry to obtain carboxylated chitosan surface-modified glass fibers;

[0018] (3) the carboxylated chitosan surface-modified glass fiber prepared by step (2) is placed in 150 grams of mass concentration in the copper su...

Embodiment 2

[0020] The glass conductive fiber is prepared by a chemical reaction method, and the steps are as follows:

[0021] (1) The cleaned alkali-free glass fiber is subjected to vacuum plasma treatment, the working atmosphere is oxygen, the vacuum degree of the back and bottom is 5Pa, the working pressure is 80Pa, the discharge power is 150W, and the treatment time is 6 minutes;

[0022] (2) the glass fiber after the plasma treatment that step (1) obtains is immersed in the carboxylated chitosan aqueous solution of 2% in mass concentration, soaks 1 hour at 30 ℃, after immersing and taking out, immersing into mass concentration is 1% Soak in glutaraldehyde solution for 0.5 hours at 50°C, take it out, rinse it with water, and dry to obtain carboxylated chitosan surface-modified glass fibers;

[0023] (3) the carboxylated chitosan surface modification glass fiber prepared by step (2) is placed in 5% copper sulfate pentahydrate aqueous solution with a mass concentration of 150 grams, af...

Embodiment 3

[0025] The glass conductive fiber is prepared by a chemical reaction method, and the steps are as follows:

[0026] (1) The cleaned alkali-free glass fiber is subjected to vacuum plasma treatment, the working atmosphere is oxygen, the vacuum degree of the back and bottom is 1Pa, the working pressure is 50Pa, the discharge power is 100W, and the treatment time is 5 minutes;

[0027] (2) Immerse the glass fiber after the plasma treatment that step (1) obtains into the carboxylated chitosan aqueous solution of 1% in mass concentration, soak 1 hour at 50 ℃, after immersing and taking out, immerse into mass concentration and be 0.06% In the glutaraldehyde solution, soak for 1 hour at 40°C, take it out, rinse it fully with water, and dry to obtain the glass fiber with carboxylated chitosan surface modification;

[0028] (3) the carboxylated chitosan surface-modified glass fiber prepared by step (2) is placed in 150 grams of mass concentration in the copper sulfate pentahydrate aqueo...

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Abstract

The invention provides a method for preparing conductive glass fibers through a chemical reaction method. Glass fibers are subjected to surface treatment by adopting vacuum plasmas, glass fibers treated through the plasmas are soaked into a carboxylation chitosan aqueous solution, taken out to be soaked into a glutaraldehyde solution, taken out to be fully rinsed with water and dried, and then glass fibers subjected to surface modification through carboxylation chitosan are obtained; the glass fibers subjected to surface modification through carboxylation chitosan are placed into a copper sulfate pentahydrate aqueous solution to be soaked, a sodium thiosulfate aqueous solution is added, the glass fibers are taken out after reacting to be rinsed with water and dried, and then the cuprous sulfide-glass fiber composite conductive fibers are obtained. The conductive glass fibers are prepared by adopting the method, the adopted equipment investment cost is low, operation is easy, the reaction conditions are mild, the applicability is high, the treatment effect is good, little fiber performance loss is generated, the quality is reliable, environmental pollution can be reduced, and the method is suitable for industrialized production.

Description

technical field [0001] The invention relates to the post-treatment field of glass fibers, in particular to a method for preparing conductive glass fibers by a chemical reaction method. Background technique [0002] In recent years, with the rapid development and popularization of computers, telecommunications, microwave ovens, etc., the electromagnetic radiation in the living and working environment of human beings has become increasingly serious. The resulting electromagnetic wave interference has brought many negative effects to the normal operation of electronic equipment and human physical health. influences. In order to prevent electrostatic interference and electromagnetic wave interference, various antistatic and electromagnetic shielding materials have been developed since the middle of the 20th century. In recent decades, the focus of research has shifted more to conductive fibers. The antistatic effect of conductive fibers is more significant and durable, and it i...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C25/32C03C25/42C03C25/62
CPCC03C25/32C03C25/42C03C25/6293
Inventor 郭正潘玮张一风高艳菲
Owner ZHONGYUAN ENGINEERING COLLEGE
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