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Negative ions far infrared ray composite viscose fiber and its production process

A far-infrared, viscose fiber technology, applied in the field of viscose fiber, can solve the problems of difficult production, single fiber composition, no negative ions, etc., and achieve the effects of simplifying the production process, enhancing metabolism, and reducing costs

Inactive Publication Date: 2007-07-11
YIBIN GRACE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For conventional viscose, the current problems are: single fiber composition, single function, conventional fiber has no negative ion, infrared, antibacterial, conductive, flame retardant, fragrance, anti-ultraviolet, luminous and other functions, while the existing functional fiber only has The above-mentioned single function, there is no viscose filament functional fiber with two or more functions at the same time
Because the more functional materials are added, the worse the physical indicators such as the strength and elongation of the finished product, the more difficult it is to produce, and the higher the cost

Method used

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  • Negative ions far infrared ray composite viscose fiber and its production process

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Experimental program
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Effect test

Embodiment 1

[0041] A negative ion far-infrared composite viscose fiber, the content of cellulose A is 88.5%, and the water content is 11.5%, calculated according to the public moisture regain of 13%. 6.5% sodium hydroxide, the rest is water.

[0042] Produce the production technology of above-mentioned anion far-infrared ray composite viscose fiber, its step is:

[0043] A, the preparation of stock solution viscose;

[0044] B, the preparation of light shell rock opal powder mother liquor: press powder: the ratio of water=1: 1.5, the addition of dispersant is added by making 0.5% of mother liquor, and its specific steps are as follows:

[0045] (1), first put deionized water in the mother liquor blending tank;

[0046] (2), then pour the negative ion far infrared powder into the water slowly while stirring;

[0047] (3), while stirring, slowly add half of the total amount of dispersant;

[0048] (4), the product obtained in (3) was ground for 0.5 hour;

[0049] (5), add the remaining...

Embodiment 2

[0074] A negative ion far-infrared composite viscose fiber, the content of cellulose A is 88.5%, the water content is 11.5%, calculated according to the public moisture regain rate of 13%; 6.5% sodium hydroxide, the rest is water.

[0075] Produce the production technology of above-mentioned anion far-infrared ray composite viscose fiber, its step is:

[0076] A, the preparation of stock solution viscose;

[0077] B, the preparation of light shell rock opal powder mother liquor: press powder: the ratio of water=1: 2, the addition of dispersant adds by making 1% of mother liquor, and its specific steps are as follows:

[0078] (1), first put deionized water in the mother liquor blending tank;

[0079] (2), then pour the negative ion far infrared powder into the water slowly while stirring;

[0080] (3), while stirring, slowly add half of the total amount of dispersant;

[0081] (4), grinding the product obtained in (3) for 0.5 to 3 hours;

[0082] (5), add the remaining ha...

Embodiment 3

[0107] A negative ion far-infrared composite viscose fiber, the content of cellulose A is 88.5%, the water content is 11.5%, calculated according to the public moisture regain rate of 13%; 6.5% sodium hydroxide, the rest is water.

[0108] Produce the production technology of above-mentioned anion far-infrared ray composite viscose fiber, its step is:

[0109] A, the preparation of stock solution viscose;

[0110] B, the preparation of light shell rock opal powder mother liquor: press powder: the ratio of water=1: 2.5, the addition of dispersant adds by making 1.5% of mother liquor, and its specific steps are as follows:

[0111] (1), first put deionized water in the mother liquor blending tank;

[0112] (2), then pour the negative ion far infrared powder into the water slowly while stirring;

[0113] (3), while stirring, slowly add half of the total amount of dispersant;

[0114] (4), the product obtained in (3) was ground for 1 hour;

[0115] (5), add the remaining half...

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Abstract

The invention discloses an anion far-infrared compound viscose fiber, characterized in that the content of cellulose of first kind is 88. 5%, the content of water is 11. 5% by the 13% of commercial moisture regain; the component of viscose is 7. 9-9. 5% of cellulose of first kind, 5. 0-6. 5%sodium hydroxide and other of water. The manufacturing process of the anion far-infrared compound viscose fiber is characterized in that the viscose of stock solution is prepared; the mother solution of opal power of light weight shellfish rock is prepared; anion far-infrared preparing solution is prepared; the preparing solution is rubbed and filtered; it is mixed with the viscose and filtered; the viscose is transported in the workshop and is set on the spinning machine of R535or other type to be spin; the anion far-infrared compound viscose fiber is prepared; the product of anion far-infrared compound viscose fiber is produced. In the production of invention only one functional material can be added in. it is provided with two performances of jetting anion and far-infrared ray at the same time. It can promote and improve the blood cycling. It can strengthen the metabolism and improve the immunity ability. It also has effects of hairdressing and lessening disease infection. It is provided with the infrared performance.

Description

technical field [0001] The invention relates to a viscose fiber for textiles, in particular to an anion far-infrared composite viscose fiber and a production process thereof. Background technique [0002] The conventional viscose filament fiber component is to adopt a kind of pulp plate of cellulose fiber component to make spinning solution, and then spin the viscose fiber with cellulose fiber function through spinning process and spinning machine. For conventional viscose, the current problems are: single fiber composition, single function, conventional fiber has no negative ion, infrared, antibacterial, conductive, flame retardant, fragrance, anti-ultraviolet, luminous and other functions, while the existing functional fiber only has The above-mentioned single function does not have viscose filament functional fibers having two or more functions at the same time. [0003] Existing negative ion viscose fiber has only one function of emitting negative ions, and its producti...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): D01F2/10D01F1/10
Inventor 邓传东王义尹继国袁道军余兰英刘萌萌陈晓芳
Owner YIBIN GRACE
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