Preparation method of nano cuprous sulfide/polyvinyl alcohol composite conductive fiber

A technology of polyvinyl alcohol and cuprous sulfide, applied in the manufacture of conductive/antistatic filaments, fiber chemical characteristics, single-component synthetic polymer rayon, etc., can solve problems such as the inability to fuse nanomaterials and conventional fibers together , to achieve good electrical conductivity and physical and mechanical properties, less equipment investment, and the effect of conductive function

Inactive Publication Date: 2016-06-29
ZHONGYUAN ENGINEERING COLLEGE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] In order to solve the technical problem that conventional processing cannot fuse nanomaterials and conventional fibers to

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] (1) Dissolve 15 grams of copper sulfate in 905 grams of water to form a copper sulfate solution, then add 80 grams of polyvinyl alcohol (the variety of polyvinyl alcohol is 1799) and heat up to 50 ° C to dissolve the polyvinyl alcohol to form a transparent solution, then add ice Acetic acid, adjust the pH to 1 to obtain a solution.

[0023] (2) Dissolve 15 grams of sodium thiosulfate in 905 grams of water to form a sodium thiosulfate solution, then add 80 grams of polyvinyl alcohol (the variety of polyvinyl alcohol is 1799) and raise the temperature to 50 ° C to dissolve the polyvinyl alcohol to obtain b solution.

[0024] (3) Mix 500 grams of solution a and 500 grams of solution b, raise the temperature to 75°C and react for 10 minutes to obtain a cuprous sulfide / polyvinyl alcohol spinning stock solution.

[0025] (4) Use a 0.08mm spinneret to filter the spinning dope under pressure, defoam, pass through a metering pump and a filter at 40°C, and spray it out from the ...

Embodiment 2

[0027] (1) Dissolve 30 grams of copper sulfate in 890 grams of water to form a copper sulfate solution, then add 80 grams of polyvinyl alcohol (the variety of polyvinyl alcohol is 1799) and raise the temperature to 92 ° C to dissolve the polyvinyl alcohol to form a transparent solution, then add ice Acetic acid, adjust the pH to 2 to prepare a solution.

[0028] (2) Dissolve 15 grams of sodium thiosulfate in 905 grams of water to form a sodium thiosulfate solution, then add 80 grams of polyvinyl alcohol (the variety of polyvinyl alcohol is 1799) and raise the temperature to 95°C to dissolve the polyvinyl alcohol to obtain b solution.

[0029] (3) Mix 400 grams of solution a and 800 grams of solution b, heat up to 85°C and react for 20 minutes to obtain a cuprous sulfide / polyvinyl alcohol spinning stock solution.

[0030] (4) Use a 0.08mm spinneret to filter the spinning stock solution under pressure, defoam, pass through a metering pump and a filter at 50°C, and spray it out ...

Embodiment 3

[0032] (1) Dissolve 45 grams of copper sulfate in 790 grams of water to form a copper sulfate solution, then add 160 grams of polyvinyl alcohol (the variety of polyvinyl alcohol is 1788) and raise the temperature to 50°C to dissolve the polyvinyl alcohol to form a transparent solution, then add ice Acetic acid, adjust the pH to 2 to prepare a solution.

[0033] (2) Dissolve 15 grams of sodium thiosulfate in 905 grams of water to form a sodium thiosulfate solution, then add 160 grams of polyvinyl alcohol (the variety of polyvinyl alcohol is 1788) and raise the temperature to 55°C to dissolve the polyvinyl alcohol to obtain b solution.

[0034] (3) Mix 300 grams of solution a and 900 grams of solution b, heat up to 75°C and react for 60 minutes to obtain a cuprous sulfide / polyvinyl alcohol spinning stock solution.

[0035](4) Use a 0.1mm spinneret to filter the spinning dope under pressure, defoam, pass through a metering pump and a filter at 80°C, and spray it out from the spi...

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Abstract

The invention belongs to the field of preparation of composite conductive fibers and relates to a preparation method of a polyvinyl alcohol composite conductive fiber. According to the preparation method, firstly, polyvinyl alcohol is used as a base body, copper sulfate and sodium thiosulfate are used as raw materials, nano cuprous sulfide is produced in situ through a chemical reaction in a polyvinyl alcohol aqueous solution, a nano cuprous sulfide/polyvinyl alcohol composite spinning solution is obtained, and the nano cuprous sulfide/polyvinyl alcohol composite conductive fiber with lasting conductivity is prepared from the spinning solution in a wet spinning manner. The traditional polyvinyl alcohol wet spinning technology is adopted, existing requirement is not required to be transformed or replaced, the equipment investment is low, the technological route is simple, the operability is high, and the production efficiency is high. According to the preparation technology of the conductive fiber, the conductive network is formed in the fiber, a conductive layer cannot fall off during usage, the effect of the use environment is avoided, and the conductive function is lasting.

Description

technical field [0001] The invention belongs to the field of composite conductive fiber preparation and relates to a preparation method of polyvinyl alcohol composite conductive fiber. 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 on the normal operation of electronic equipment and human physical health. , In order to prevent electrostatic interference and electromagnetic wave interference, various antistatic and electromagnetic shielding materials have been developed for various purposes 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 significant and durable, and...

Claims

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Application Information

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IPC IPC(8): D01F6/50D01F1/09
CPCD01F1/09D01F6/50
Inventor 潘玮陈燕刘红燕曲良俊裴海燕
Owner ZHONGYUAN ENGINEERING COLLEGE
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