CN103799589A

CN103799589A - Blended antistatic conductive fiber fabric

Info

Publication number: CN103799589A
Application number: CN201410077326.4A
Authority: CN
Inventors: 张建忠
Original assignee: TAICANG SIXIN TEXTILE Co Ltd
Current assignee: TAICANG SIXIN TEXTILE Co Ltd
Priority date: 2014-03-05
Filing date: 2014-03-05
Publication date: 2014-05-21

Abstract

The invention discloses a blended antistatic conductive fiber fabric which is blended and woven from four fibers of an acrylic copper complexing conductive fiber, a carbon composite conductive fiber, a polyaniline conductive fiber and a ramie fiber, wherein the acrylic copper complexing conductive fiber accounts for 21%-25%, the carbon composite conductive fiber accounts for 10%-14%, the polyaniline conductive fiber accounts for 15%-19%, and the ramie fiber accounts for 42%-54%. The fabric is blended and woven from four fibers of the acrylic copper complexing conductive fiber, the carbon composite conductive fiber, the polyaniline conductive fiber and the ramie fiber, and the woven fabric has excellent antistatic property and conductive property, and can avoid the static electricity, and meanwhile, the fabric is cool to wear and has the advantages of excellent moisture absorbance, high dehumidification speed, and excellent heat resistance.

Description

A kind of blending antistatic conductive fabric lining

Technical field

The present invention relates to fabric, be specifically related to a kind of blending antistatic conductive fabric lining.

Background technology

Along with scientific and technical development, the textile fabric that meets the different needs of people emerges in an endless stream, and to satisfy the demands of consumers, plays a part more and more important in daily life.

The antistatic fabric using is at present to apply one deck antistatic agent on fabric surface mostly, reach the effect of antistatic, but this type of fabric easily comes off, and causes anti-static effect variation, even disappears, and practicality is not good enough.Conductive fiber fabric is to adopt metallic fiber braiding to form mostly, causes the comfort level of fabric to reduce, wear uncomfortable, simultaneously may be because metallic fiber improper use damage human body.And above-mentioned antistatic fabric and conductive fiber fabric all do not have good hygroscopicity, wet putting, heat resistance, wear sultry, heavy, quite uncomfortable.

Summary of the invention

The object of the present invention is to provide that a kind of antistatic performance is good, electric conductivity is good, dress is nice and cool, good hygroscopicity, moisture releasing are fast, the blending antistatic conductive fabric lining of good heat resistance.

Technical scheme of the present invention is, a kind of blending antistatic conductive fabric lining, described blending antistatic conductive fabric lining is formed by acrylic fibers copper complexing conductive fiber, carbon element composite conducting fiber, Conductive Polyaniline Fibers and four kinds of fiber blend braidings of ramee, in described blending antistatic conductive fabric lining, the shared percentage by weight of each composition is respectively: described acrylic fibers copper complexing conductive fiber accounts for 21%-25%, described carbon element composite conducting fiber accounts for 10%-14%, described Conductive Polyaniline Fibers accounts for 15%-19%, and described ramee accounts for 42%-54%.

In a preferred embodiment of the present invention, in described blending antistatic conductive fabric lining, the shared percentage by weight of each composition is specially: described acrylic fibers copper complexing conductive fiber accounts for 22%, described carbon element composite conducting fiber accounts for 11%, and described Conductive Polyaniline Fibers accounts for 16%, and described ramee accounts for 1%.

In a preferred embodiment of the present invention, in described blending antistatic conductive fabric lining, the shared percentage by weight of each composition is specially: described acrylic fibers copper complexing conductive fiber accounts for 24%, described carbon element composite conducting fiber accounts for 13%, described Conductive Polyaniline Fibers accounts for 18%, and described ramee accounts for 45%.

Of the present invention is a kind of blending antistatic conductive fabric lining, this fabric adopts acrylic fibers copper complexing conductive fiber, carbon element composite conducting fiber, Conductive Polyaniline Fibers and four kinds of fiber blend braidings of ramee to form, the fabric that braiding forms has excellent antistatic performance, electric conductivity, can avoid the generation of static, simultaneously fabric dress is nice and cool, good hygroscopicity, moisture releasing are fast, good heat resistance.

The specific embodiment

Below preferred embodiment of the present invention is described in detail, thereby so that advantages and features of the invention can be easier to be it will be appreciated by those skilled in the art that, protection scope of the present invention is made to more explicit defining.

Of the present invention is a kind of blending antistatic conductive fabric lining, described blending antistatic conductive fabric lining is formed by acrylic fibers copper complexing conductive fiber, carbon element composite conducting fiber, Conductive Polyaniline Fibers and four kinds of fiber blend braidings of ramee, in described blending antistatic conductive fabric lining, the shared percentage by weight of each composition is respectively: described acrylic fibers copper complexing conductive fiber accounts for 21%-25%, described carbon element composite conducting fiber accounts for 10%-14%, described Conductive Polyaniline Fibers accounts for 15%-19%, and described ramee accounts for 42%-54%.

Further, in described blending antistatic conductive fabric lining, the shared percentage by weight of each composition is specially: described acrylic fibers copper complexing conductive fiber accounts for 22%, described carbon element composite conducting fiber accounts for 11%, and described Conductive Polyaniline Fibers accounts for 16%, and described ramee accounts for 1%.

Further, in described blending antistatic conductive fabric lining, the shared percentage by weight of each composition is specially: described acrylic fibers copper complexing conductive fiber accounts for 24%, described carbon element composite conducting fiber accounts for 13%, and described Conductive Polyaniline Fibers accounts for 18%, and described ramee accounts for 45%.

Carry out proportioning by each composition Different Weight percentage, the functional fabric performance height obtaining is differed.

The foregoing is only the specific embodiment of the present invention; but protection scope of the present invention is not limited to this; any those of ordinary skill in the art are in the disclosed technical scope of the present invention; the variation that can expect without creative work or replacement, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain that claims were limited.

Claims

1. a blending antistatic conductive fabric lining, it is characterized in that: described blending antistatic conductive fabric lining is formed by acrylic fibers copper complexing conductive fiber, carbon element composite conducting fiber, Conductive Polyaniline Fibers and four kinds of fiber blend braidings of ramee, in described blending antistatic conductive fabric lining, the shared percentage by weight of each composition is respectively: described acrylic fibers copper complexing conductive fiber accounts for 21%-25%, described carbon element composite conducting fiber accounts for 10%-14%, described Conductive Polyaniline Fibers accounts for 15%-19%, and described ramee accounts for 42%-54%.

2. blending antistatic conductive fabric lining according to claim 1, it is characterized in that: in described blending antistatic conductive fabric lining, the shared percentage by weight of each composition is specially: described acrylic fibers copper complexing conductive fiber accounts for 22%, described carbon element composite conducting fiber accounts for 11%, described Conductive Polyaniline Fibers accounts for 16%, and described ramee accounts for 1%.

3. blending antistatic conductive fabric lining according to claim 1, it is characterized in that: in described blending antistatic conductive fabric lining, the shared percentage by weight of each composition is specially: described acrylic fibers copper complexing conductive fiber accounts for 24%, described carbon element composite conducting fiber accounts for 13%, described Conductive Polyaniline Fibers accounts for 18%, and described ramee accounts for 45%.