CN104233573A - Manufacturing method of silk-containing high-grade anti-radiation anti-bacterial fabric - Google Patents

Abstract

The invention discloses a manufacturing method of a silk-containing high-grade anti-radiation anti-bacterial fabric. The manufacturing method comprises the following steps: (1) silvering nylon through an ion plating method, controlling the thickness of the plated silver and the fineness of fibers and adding low twists as warps; (2) silvering the silk through the ion plating method, controlling the thickness of the plated silver and adding the low twists as wefts; (3) after performing sectional warping on the nylon silvered fibers, and weaving with the wefts to obtain the anti-radiation anti-bacterial fabric. According to the manufacturing method, the anti-radiation anti-bacterial performance and the wearability of the fabric are optimized by controlling the silver content in the fibers and the diameter of the fibers; the fabric contains the silver and the nylon, so that the fabric is skin-friendly, has fine and comfortable handfeel and good wearability and is durable.

Description

A kind of manufacture method of the high-grade radiation proof antibiotic facing material containing silk

Technical field:

The invention belongs to field of textiles, be specifically related to a kind of manufacture method of the high-grade radiation proof antibiotic facing material containing silk.

Background technology:

Along with improving constantly of social progress and living standard, there is the electromagnetic radiation of various forms, different frequency intensity at one's side, human body and organism health are worked the mischief.Therefore people require more and more higher to the security performance of textiles, day by day attract attention by people based on the high-grade functional textiles of antibiotic health care, radiation proof.

Traditional chemical fiber plus material, due to poor air permeability, easily impels bacteria breed, is unfavorable for health, and it is not good to utilize Final finishing to process the persistence making fabric antibacterial.Electromagnetic shielding material mainly conductive wire conventional at present, it is stiff to feel when wearing next to the skin, and likely causes allergy.Therefore utilize silver-plated nylon fibre and silver-plated silk fiber to weave fabric, both antibiotic radiation proofs herein, taking is good again.

Summary of the invention:

The object of this invention is to provide a kind of manufacture method of the high-grade radiation proof antibiotic facing material containing silk, present invention process is easy, the fabric functionally Radiation-proof antistatic of preparation, antibacterial bacteriostatic, takes slim and graceful ventilative, comfortable feel, prolonged endurable.

Object of the present invention is achieved through the following technical solutions:

Containing a manufacture method for the high-grade radiation proof antibiotic facing material of silk, comprise the following steps:

(1) polyamide fibre is silver-plated by ion plating method, control silver-plated thickness and the fiber number of fiber, add low twist as warp;

(2) silk is silver-plated by ion plating method, control silver-plated thickness, add low twist as parallel;

(3), after polyamide fibre silver plated fiber being carried out section warping, weave processing with parallel and obtain radiation proof antibiotic facing material.

Preferred as technique scheme, thickness silver-plated in described step (2) is 0.5-1 micron.

Preferred as technique scheme, the fiber number of the polyamide fibre of described step (1) is 27-50D.

Preferred as technique scheme, what the silk of described step (2) adopted is mulberry silk, and fiber number is 3/20/22D.

Preferred as technique scheme, what in described step (3), radiation proof antibiotic facing material was taked is 1/3 or 3/1 twill-weave.

Preferred as technique scheme, the radiation proof antibiotic facing material in described step (3) through close be 78-90 root/centimetre, filling density be 50-60 root/centimetre.

Beneficial effect of the present invention is: it adopts the silver comprised in silver plated fiber to have good bactericidal and bacteriostatic effect, and filling yarn surface is all silver-plated, and web surface conduction is continuous, shielding electromagnetism that can be fabulous, and can not produce obvious leakage.Therefore fabric daily normally take under, the silver on fiber not easily runs off, and has permanent effect suppressed.By controlling the content of silver and the diameter of fiber in fiber, make its radiation proof anti-microbial property and take Performance optimization, fabric contains silk and polyamide fibre, so fabric is good to the compatibility of human body, feel exquisiteness is comfortable, and wearability is good, prolonged endurable.

Detailed description of the invention:

In order to deepen the understanding of the present invention, below in conjunction with embodiment, the invention will be further described, and this embodiment only for explaining the present invention, does not form limiting the scope of the present invention.

Embodiment 1:

Polyamide fibre is silver-plated by ion plating method, and to control silver-plated thickness be the fiber number of 0.5 micron and fiber is 27D, adds low twist as warp;

The mulberry silk of 3/20/22D is silver-plated by ion plating method, and controlling silver-plated thickness is 0.5 micron, adds low twist as parallel;

After polyamide fibre silver plated fiber is carried out section warping, adopt 1/3 twill-weave, weave processing with parallel and obtain radiation proof antibiotic facing material, fabric through close be 90 pieces/centimetre, filling density is 50 pieces/centimetre.Antibacterial value 2.1, electromagnetic wave shielding rate reaches 99.9%.

Embodiment 2:

Polyamide fibre is silver-plated by ion plating method, and to control silver-plated thickness be the fiber number of 1 micron and fiber is 50D, adds low twist as warp;

The mulberry silk of 3/20/22D is silver-plated by ion plating method, and controlling silver-plated thickness is 1 micron, adds low twist as parallel;

After polyamide fibre silver plated fiber is carried out section warping, adopt 3/1 twill-weave, weave processing with parallel and obtain radiation proof antibiotic facing material, fabric through close be 90 pieces/centimetre, filling density is 50 pieces/centimetre.Antibacterial value 4.0, electromagnetic wave shielding rate reaches 99.9%.

Embodiment 3:

Polyamide fibre is silver-plated by ion plating method, and to control silver-plated thickness be the fiber number of 0.7 micron and fiber is 45D, adds low twist as warp;

The mulberry silk of 3/20/22D is silver-plated by ion plating method, and controlling silver-plated thickness is 0.7 micron, adds low twist as parallel;

After polyamide fibre silver plated fiber is carried out section warping, adopt 1/3 twill-weave, weave processing with parallel and obtain radiation proof antibiotic facing material, fabric through close be 85 pieces/centimetre, filling density is 55 pieces/centimetre.Antibacterial value 3.4, electromagnetic wave shielding rate reaches 99.9%.

Embodiment 4:

Polyamide fibre is silver-plated by ion plating method, and to control silver-plated thickness be the fiber number of 0.6 micron and fiber is 36D, adds low twist as warp;

The mulberry silk of 3/20/22D is silver-plated by ion plating method, and controlling silver-plated thickness is 0.6 micron, adds low twist as parallel;

After polyamide fibre silver plated fiber is carried out section warping, adopt 3/1 twill-weave, weave processing with parallel and obtain radiation proof antibiotic facing material, fabric through close be 88 pieces/centimetre, filling density is 54 pieces/centimetre.Antibacterial value 3.0, electromagnetic wave shielding rate reaches 99.9%.

The present invention's textile product containing stainless steel fibre or conductive fiber different from the past, the present invention is silver-plated by graticule, and the thickness that strict control is silver-plated, be on good basis in guarantee fabric wearability, make bactericidal, shielding property optimization.

Claims (6)

1., containing a manufacture method for the high-grade radiation proof antibiotic facing material of silk, it is characterized in that comprising the following steps:

(1) polyamide fibre is silver-plated by ion plating method, control silver-plated thickness and the fiber number of fiber, add low twist as warp;

(2) silk is silver-plated by ion plating method, control silver-plated thickness, add low twist as parallel;

(3), after polyamide fibre silver plated fiber being carried out section warping, weave processing with parallel and obtain radiation proof antibiotic facing material.

2. the manufacture method of a kind of high-grade radiation proof antibiotic facing material containing silk according to claim 1, is characterized in that: in described step (1) and step (2), silver-plated thickness is 0.5-1 micron.

3. the manufacture method of a kind of high-grade radiation proof antibiotic facing material containing silk according to claim 1, is characterized in that: the fiber number of the polyamide fibre of described step (1) is 27-50D.

4. the manufacture method of a kind of high-grade radiation proof antibiotic facing material containing silk according to claim 1, is characterized in that: what the silk of described step (2) adopted is mulberry silk, and fiber number is 3/20/22D.

5. the manufacture method of a kind of high-grade radiation proof antibiotic facing material containing silk according to claim 1, is characterized in that: what in described step (3), radiation proof antibiotic facing material was taked is 1/3 or 3/1 twill-weave.

6. the manufacture method of a kind of high-grade radiation proof antibiotic facing material containing silk according to claim 1, is characterized in that: the radiation proof antibiotic facing material in described step (3) through close for 78-90 root/centimetre, filling density be 50-60 root/centimetre.