CN103622187A - Ultrathin anti-radiation fabric - Google Patents

Abstract

The invention discloses an ultrathin anti-radiation fabric. The ultrathin anti-radiation fabric is made by blending and weaving the following components in percentage by weight: 21-25 percent of polyimide fiber, 13-18 percent of nano-silver fiber, 17-21 percent of acetate fiber and 36-49 percent of cashmere fiber. The fabric is made by blending and weaving the polyimide fiber, the nanometer silver fiber, the acetate fiber and the cashmere fiber, so that the woven fabric has a superior anti-radiation function; meanwhile, the fabric is ultrathin, wears elastic and close-fitted, has moisture absorption and air permeation functions, is cool and comfortable, and can be used for keeping a human body dry.

Description

A kind of ultra-thin radiation-proof fabric

Technical field

The present invention relates to fabric, be specifically related to a kind of ultra-thin radiation-proof fabric.

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.

Along with a large amount of uses of electronics, electric equipment, be present in tellurian electromagnetic wave and increase considerably.Electromagenetic wave radiation has tremendous influence to human lives and activity in production, and the electromagnetic wave radiation of some strength is to daily life.The harmful effect that Electromagnetic Wave Radiation on Human health causes is losing one's memory people, insomnia, and dreaminess, weak, the symptoms such as dizziness.

Existing radiation-proof fabric all adopts the fiber blends such as stainless steel metal fibre and cotton and terylene to become fabric mostly, and fabric is abundant, and radiation-resistant glass performance is general, and protection effect is poor, and the material of fabric own is harder simultaneously, wears uncomfortable.

Summary of the invention

The object of the present invention is to provide that a kind of shielding property is excellent, material is ultra-thin, elastic close-fitting, moisture absorption are ventilative, cool and comfortable, the dry and comfortable ultra-thin radiation-proof fabric of maintenance human body.

Technical scheme of the present invention is, a kind of ultra-thin radiation-proof fabric, described ultra-thin radiation-proof fabric is formed by polyimide fiber, nano silver fibre, acetate fiber and four kinds of fiber blend braidings of cashmere fibres, in described ultra-thin radiation-proof fabric, the shared percentage by weight of each composition is respectively: described polyimide fiber accounts for 21%-25%, described nano silver fibre accounts for 13%-18%, described acetate fiber accounts for 17%-21%, and described cashmere fibres accounts for 36%-49%.

In a preferred embodiment of the present invention, in described ultra-thin radiation-proof fabric, the shared percentage by weight of each composition is specially: described polyimide fiber accounts for 22%, described nano silver fibre accounts for 14%, and described acetate fiber accounts for 18%, and described cashmere fibres accounts for 46%.

In a preferred embodiment of the present invention, in described ultra-thin radiation-proof fabric, the shared percentage by weight of each composition is specially: described polyimide fiber accounts for 24%, described nano silver fibre accounts for 17%, and described acetate fiber accounts for 20%, and described cashmere fibres accounts for 39%.

Of the present invention is a kind of ultra-thin radiation-proof fabric, this fabric adopts polyimide fiber, nano silver fibre, acetate fiber and four kinds of fiber blend braidings of cashmere fibres to form, the fabric that braiding forms has excellent radiation proof function, fabric material is ultra-thin simultaneously, wear that elastic close-fitting, moisture absorption are ventilative, cool and comfortable, keep human body dry and comfortable.

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 ultra-thin radiation-proof fabric, described ultra-thin radiation-proof fabric is formed by polyimide fiber, nano silver fibre, acetate fiber and four kinds of fiber blend braidings of cashmere fibres, in described ultra-thin radiation-proof fabric, the shared percentage by weight of each composition is respectively: described polyimide fiber accounts for 21%-25%, described nano silver fibre accounts for 13%-18%, described acetate fiber accounts for 17%-21%, and described cashmere fibres accounts for 36%-49%.

Further, in described ultra-thin radiation-proof fabric, the shared percentage by weight of each composition is specially: described polyimide fiber accounts for 22%, and described nano silver fibre accounts for 14%, and described acetate fiber accounts for 18%, and described cashmere fibres accounts for 46%.

Further, in described ultra-thin radiation-proof fabric, the shared percentage by weight of each composition is specially: described polyimide fiber accounts for 24%, and described nano silver fibre accounts for 17%, and described acetate fiber accounts for 20%, and described cashmere fibres accounts for 39%.

By each composition Different Weight percentage, carry out proportioning, the functional fabric performance obtaining is just differed.

Of the present invention is a kind of ultra-thin radiation-proof fabric, this fabric adopts polyimide fiber, nano silver fibre, acetate fiber and four kinds of fiber blend braidings of cashmere fibres to form, the fabric that braiding forms has excellent radiation proof function, fabric material is ultra-thin simultaneously, wear that elastic close-fitting, moisture absorption are ventilative, cool and comfortable, keep human body dry and comfortable.

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 (3)

1. a ultra-thin radiation-proof fabric, it is characterized in that: described ultra-thin radiation-proof fabric is formed by polyimide fiber, nano silver fibre, acetate fiber and four kinds of fiber blend braidings of cashmere fibres, in described ultra-thin radiation-proof fabric, the shared percentage by weight of each composition is respectively: described polyimide fiber accounts for 21%-25%, described nano silver fibre accounts for 13%-18%, described acetate fiber accounts for 17%-21%, and described cashmere fibres accounts for 36%-49%.

2. ultra-thin radiation-proof fabric according to claim 1, it is characterized in that: in described ultra-thin radiation-proof fabric, the shared percentage by weight of each composition is specially: described polyimide fiber accounts for 22%, described nano silver fibre accounts for 14%, described acetate fiber accounts for 18%, and described cashmere fibres accounts for 46%.

3. ultra-thin radiation-proof fabric according to claim 1, it is characterized in that: in described ultra-thin radiation-proof fabric, the shared percentage by weight of each composition is specially: described polyimide fiber accounts for 24%, described nano silver fibre accounts for 17%, described acetate fiber accounts for 20%, and described cashmere fibres accounts for 39%.