CN109811453A - A kind of radiation protection, fire-retardant healthcare face fabric - Google Patents

Abstract

The invention discloses a kind of radiation protection, fire-retardant healthcare face fabric, fabric is formed using the raw material hybrid woven of following parts by weight composition: 50~60 parts of aromatic copolyamide fibre；30~40 parts of metal chelate fiber；10~15 parts of mint fibers.Radiation protection of the invention, fire-retardant healthcare face fabric, not only there is excellent radiation protection, flame retardant property, and there is good ventilative, antistatic, anti-microbial property, and can efficiently discharge anion, have and absorb peculiar smell, activating cell, improve the healthcare functions such as immunity.

Description

A kind of radiation protection, fire-retardant healthcare face fabric

Technical field

The present invention relates to a kind of fabrics, more particularly to a kind of radiation protection, fire-retardant healthcare face fabric.

Background technique

With the development of modern science and technology and the application of the various energy, the especially exploitation of electronics, optical field, increasingly More electronics, luminous energy facility occur in people's lives, although the appearance of these new technologies obtains the life style of the mankind Tremendous promotion, but generate various radiation in new technology, new energy application and also occur therewith, and more and more appear in Around human body, such as computer, mobile phone etc., this radiation cause huge injury to human body at invisible, seriously threaten To the health of the mankind.Therefore, various rays are protected to become a kind of needs to the injury of human body at any time.

In addition, health care also becomes the fashion of people's pursuit with the continuous improvement of social progress and people's living standard. Currently, Health-care textile fabric available on the market is many kinds of, but healthcare function is single, and all there are some disadvantages.By remote red The fabric that outside line radioactive substance is constituted is also one kind of health care fabric, when people wear and use this fabric, is can absorb The far infrared of the sun etc. is simultaneously converted into thermal energy, can also reflect the heat of human body and obtain warming effect, this far infrared For radioactive substance under the action of body temperature, can expeditiously radiate wavelength is 8-14 μm of far infrared, except can be used as Outside thermal insulation material, also have the function of antibacterial, deodorization, promote blood circulation, is ideal warm body-building textile.Now, right The demand of comprehensive functional textile is more more and more intense, not only needs its electromagnetic radiation resistant but also needs its fire-retardant, the present invention Purpose i.e. be to provide such a technical solution.

Summary of the invention

In view of the above shortcomings, it is an object of the invention to develop a radiation protection, fire-retardant healthcare face fabric, with excellent Different radiation protection, release anion, fire-retardant performance.

Technical solution of the present invention is summarized as follows:

A kind of radiation protection, fire-retardant healthcare face fabric, wherein the fabric uses the raw material hybrid woven of following parts by weight composition It forms:

50~60 parts of aromatic copolyamide fibre；

30~40 parts of metal chelate fiber；

10~15 parts of mint fibers.

Preferably, the radiation protection, fire-retardant healthcare face fabric, wherein further include the acetate fiber of 3~5 parts by weight.

Preferably, the radiation protection, fire-retardant healthcare face fabric, wherein further include the viscose fiber of 1~4 parts by weight.

Preferably, the radiation protection, fire-retardant healthcare face fabric, wherein further include the tencel fiber of 2~4 parts by weight.

Preferably, the radiation protection, fire-retardant healthcare face fabric, wherein further include the polyvinyl alcohol of 10~20 parts by weight Fiber.

Preferably, the radiation protection, fire-retardant healthcare face fabric, wherein the vinal contains 6~8wt% Ceramic powders, the coupling agent of 0.5~1wt% and the antiradiation agent of 3~5wt%.

Preferably, the radiation protection, fire-retardant healthcare face fabric, wherein by weight, under the ceramic powders include State component: 30~40 parts of calcium carbonate, 10~20 parts of talcum powder, 10~20 parts of zeolites.

Preferably, the radiation protection, fire-retardant healthcare face fabric, wherein by weight, under the antiradiation agent includes State component: 30~40 parts of Quercetins, 20~30 parts of tea polyphenols, 5~10 parts of sodium gluconates, 8~12 parts of dried orange peels.

Preferably, the radiation protection, fire-retardant healthcare face fabric, wherein by weight, the coupling agent includes following Component: 30~40 parts of N- (β-aminoethyl)-γ-aminopropyltrimethoxysilanes and 20~30 parts of bis- (two octyloxy pyrophosphates Base) ethylene titanate esters.

Preferably, the radiation protection, fire-retardant healthcare face fabric, wherein the polyvinyl alcohol negative-ion fiber is by following Step is prepared:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by the modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, anion poly- third is made Alkene slice；

(4) the anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

The beneficial effects of the present invention are:

(1) radiation protection of the invention, fire-retardant healthcare face fabric not only have excellent radiation protection, flame retardant property, and have Good ventilative, antistatic, anti-microbial property, and anion can be efficiently discharged, have and absorbs peculiar smell, activating cell, raising The healthcare functions such as immunity.

(2) radiation protection of the invention, fire-retardant healthcare face fabric are based on aromatic copolyamide fibre, by the way that gold is added Belonging to chelate fibre improves its fire prevention and heat-insulating property；Pass through the antibacterial deodourizing of addition mint fibers raising fabric, ventilative and health care Performance；Improve the feel of fabric by the way that acetate fiber is added, so that its is soft, sliding, dry, pleasant, flexible；It is fine by the way that viscose is added Dimension improves ventilative, antistatic, antiultraviolet and dyefastness；Its intensity, wear-resisting, antiacid is improved by the way that vinal is added Alkali and weatherability.

(3) vinal of the invention is to improve vinal by the way that ceramic powders and antiradiation agent are added Heat-resisting, flame retardant property and shielding property, and can efficiently discharge anion.

Specific embodiment

The present invention will be further described in detail below with reference to the embodiments, to enable those skilled in the art referring to specification Text can be implemented accordingly.

This case proposes a kind of radiation protection, fire-retardant healthcare face fabric, and fabric uses the raw material hybrid woven of following parts by weight composition It forms:

50~60 parts of aromatic copolyamide fibre；

30~40 parts of metal chelate fiber；

10~15 parts of mint fibers.

Aromatic copolyamide fibre has high mechanical performance, high intensity, high elastic modulus, heat-resisting quantity, height The lower dimensional stability of temperature；Improve its fire prevention and heat-insulating property by the way that metal chelate fiber is added；It is mentioned by the way that mint fibers are added The antibacterial deodourizing of high fabric, ventilative and health properties.

As the another embodiment of this case, wherein further include the acetate fiber of 3~5 parts by weight.Changed by the way that acetate fiber is added The feel of kind fabric, so that its is soft, sliding, dry, pleasant, flexible；Improve comfort, so that its good permeability, core material, drying Fastly, without Electrostatic Absorption.

As the another embodiment of this case, wherein further include the viscose fiber of 1~4 parts by weight.Changed by the way that viscose fiber is added Kind ventilative, antistatic, antiultraviolet and dyefastness.

As the another embodiment of this case, wherein further include the tencel fiber of 2~4 parts by weight.Tencel fiber has good Hygroscopicity, comfort, drapability and stiffness and dyeability it is good.

As the another embodiment of this case, wherein further include the vinal of 10~20 parts by weight.By the way that poly- second is added Enol fiber improves its intensity, wear-resisting, antiacid alkali and weatherability.

As the another embodiment of this case, wherein vinal contains the ceramic powders of 6~8wt%, 0.5~1wt% Coupling agent and 3~5wt% antiradiation agent.

As the another embodiment of this case, wherein by weight, ceramic powders include following components: 30~40 parts of carbonic acid Calcium, 10~20 parts of talcum powder, 10~20 parts of zeolites.Calcium carbonate, talcum powder, zeolite collaboration are used as ceramic powders, can efficiently discharge Anion, and improve its flame retardant property.

As the another embodiment of this case, wherein by weight, antiradiation agent includes following components: 30~40 parts of quercitrins Element, 20~30 parts of tea polyphenols, 5~10 parts of sodium gluconates, 8~12 parts of dried orange peels.Quercetin and tea polyphenols all have and oxygen freedom The effect of base reaction, is truncated the chain reaction of free radical, to have effects that good trapping free radical；Dried orange peel can prevent from penetrating Attack of the line to macromolecular, reaches anti-radiation effect；Sodium gluconate improves the washability radiation protection of fabric as resistance to lotion Property；Quercetin, tea polyphenols, sodium gluconate, dried orange peel collaboration are used as antiradiation agent, and electromagnetic radiation is effectively reduced, filters strong light, disappears Magnetic field is destaticed, so that radiation resistance reaches best.

As the another embodiment of this case, wherein by weight, coupling agent includes following components: 30~40 parts of N- (β-ammonia Ethyl)-γ-aminopropyltrimethoxysilane and 20~30 parts of Di(dioctylpyrophosphato) ethylene titanate.

As the another embodiment of this case, wherein polyvinyl alcohol negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

Specific embodiment and comparative example is listed below:

Embodiment 1:

A kind of radiation protection, fire-retardant healthcare face fabric, fabric are formed using the raw material hybrid woven of following parts by weight composition:

Vinal contains the antiradiation agent of the ceramic powders of 6wt%, the coupling agent of 0.5wt% and 3wt%；Ceramics Powder includes following components: 30 parts of calcium carbonate, 10 parts of talcum powder, 10 parts of zeolites；Antiradiation agent includes following components: 30 parts of quercitrins Element, 20 parts of tea polyphenols, 5 parts of sodium gluconates, 8 parts of dried orange peels；Coupling agent includes following components: 30 parts of N- (β-aminoethyl)-γ-ammonia Propyl trimethoxy silicane and 20 parts of Di(dioctylpyrophosphato) ethylene titanate.

Polyvinyl alcohol negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

Embodiment 2:

A kind of radiation protection, fire-retardant healthcare face fabric, fabric are formed using the raw material hybrid woven of following parts by weight composition:

Vinal contains the antiradiation agent of the ceramic powders of 7wt%, the coupling agent of 0.8wt% and 4wt%；Ceramics Powder includes following components: 34 parts of calcium carbonate, 12 parts of talcum powder, 15 parts of zeolites；Antiradiation agent includes following components: 36 parts of quercitrins Element, 24 parts of tea polyphenols, 7 parts of sodium gluconates, 11 parts of dried orange peels；Coupling agent includes following components: 37 parts of N- (β-aminoethyl)-γ- Aminopropyl trimethoxysilane and 23 parts of Di(dioctylpyrophosphato) ethylene titanate.

Polyvinyl alcohol negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

Embodiment 3:

A kind of radiation protection, fire-retardant healthcare face fabric, fabric are formed using the raw material hybrid woven of following parts by weight composition:

Vinal contains the antiradiation agent of the ceramic powders of 8wt%, the coupling agent of 1wt% and 5wt%；Ceramic powder End includes following components: 40 parts of calcium carbonate, 20 parts of talcum powder, 20 parts of zeolites；Antiradiation agent includes following components: 40 parts of quercitrins Element, 30 parts of tea polyphenols, 10 parts of sodium gluconates, 12 parts of dried orange peels；Coupling agent includes following components: 40 parts of N- (β-aminoethyl)-γ- Aminopropyl trimethoxysilane and 30 parts of Di(dioctylpyrophosphato) ethylene titanate.

Polyvinyl alcohol negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

Comparative example 1:

A kind of radiation protection, fire-retardant healthcare face fabric, fabric are formed using the raw material hybrid woven of following parts by weight composition:

Vinal contains the antiradiation agent of the ceramic powders of 6wt%, the coupling agent of 0.5wt% and 3wt%；Ceramics Powder includes following components: 30 parts of calcium carbonate, 10 parts of talcum powder, 10 parts of zeolites；Antiradiation agent includes following components: 30 parts of quercitrins Element, 20 parts of tea polyphenols, 5 parts of sodium gluconates, 8 parts of dried orange peels；Coupling agent includes following components: 30 parts of N- (β-aminoethyl)-γ-ammonia Propyl trimethoxy silicane and 20 parts of Di(dioctylpyrophosphato) ethylene titanate.

Polyvinyl alcohol negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

Comparative example 2:

A kind of radiation protection, fire-retardant healthcare face fabric, fabric are formed using the raw material hybrid woven of following parts by weight composition:

Vinal contains the antiradiation agent of the ceramic powders of 6wt%, the coupling agent of 0.5wt% and 3wt%；Ceramics Powder includes following components: 30 parts of calcium carbonate, 10 parts of talcum powder, 10 parts of zeolites；Antiradiation agent includes following components: 30 parts of quercitrins Element, 20 parts of tea polyphenols, 5 parts of sodium gluconates, 8 parts of dried orange peels；Coupling agent includes following components: 30 parts of N- (β-aminoethyl)-γ-ammonia Propyl trimethoxy silicane and 20 parts of Di(dioctylpyrophosphato) ethylene titanate.

Polyvinyl alcohol negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

Comparative example 3:

A kind of radiation protection, fire-retardant healthcare face fabric, fabric are formed using the raw material hybrid woven of following parts by weight composition:

Vinal contains the antiradiation agent of the ceramic powders of 7wt%, the coupling agent of 0.8wt% and 4wt%；Ceramics Powder includes following components: 34 parts of calcium carbonate, 12 parts of talcum powder, 15 parts of zeolites；Antiradiation agent includes following components: 36 parts of quercitrins Element, 24 parts of tea polyphenols, 7 parts of sodium gluconates, 11 parts of dried orange peels；Coupling agent includes following components: 37 parts of N- (β-aminoethyl)-γ- Aminopropyl trimethoxysilane and 23 parts of Di(dioctylpyrophosphato) ethylene titanate.

Polyvinyl alcohol negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

Comparative example 4:

A kind of radiation protection, fire-retardant healthcare face fabric, fabric are formed using the raw material hybrid woven of following parts by weight composition:

Vinal contains the antiradiation agent of the ceramic powders of 7wt%, the coupling agent of 0.8wt% and 4wt%；Ceramics Powder includes following components: 34 parts of calcium carbonate, 12 parts of talcum powder；Antiradiation agent includes following components: 36 parts of Quercetins, 24 parts of tea Polyphenol, 7 parts of sodium gluconates, 11 parts of dried orange peels；Coupling agent includes following components: 37 parts of N- (β-aminoethyl)-γ-aminopropyl front threes Oxysilane and 23 parts of Di(dioctylpyrophosphato) ethylene titanate.

Polyvinyl alcohol negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

Comparative example 5:

A kind of radiation protection, fire-retardant healthcare face fabric, fabric are formed using the raw material hybrid woven of following parts by weight composition:

Vinal contains the antiradiation agent of the ceramic powders of 8wt%, the coupling agent of 1wt% and 5wt%；Ceramic powder End includes following components: 40 parts of calcium carbonate, 20 parts of talcum powder, 20 parts of zeolites；Antiradiation agent includes following components: 40 parts of quercitrins Element, 10 parts of sodium gluconates, 12 parts of dried orange peels；Coupling agent includes following components: 40 parts of N- (β-aminoethyl)-γ-aminopropyl front threes Oxysilane and 30 parts of Di(dioctylpyrophosphato) ethylene titanate.

Polyvinyl alcohol negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

Comparative example 6:

A kind of radiation protection, fire-retardant healthcare face fabric, fabric are formed using the raw material hybrid woven of following parts by weight composition:

Vinal contains the antiradiation agent of the ceramic powders of 8wt%, the coupling agent of 1wt% and 5wt%；Ceramic powder End includes following components: 40 parts of calcium carbonate, 20 parts of talcum powder, 20 parts of zeolites；Antiradiation agent includes following components: 40 parts of quercitrins Element, 30 parts of tea polyphenols, 10 parts of sodium gluconates；Coupling agent includes following components: 40 parts of N- (β-aminoethyl)-γ-aminopropyls three Methoxy silane and 30 parts of Di(dioctylpyrophosphato) ethylene titanate.

Polyvinyl alcohol negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, bis- (two octyloxy pyrophosphoric acid ester groups) ethylene titaniums Acid esters is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.

The performance test results of embodiment and comparative example are listed below:

It can be seen that by examples detailed above, the material obtained not only has excellent radiation protection, flame retardant property, and has good Ventilative, antistatic, anti-microbial property, and can efficiently discharge anion, have absorb peculiar smell, activating cell, improve it is immune The healthcare functions such as power.

Although the embodiments of the present invention have been disclosed as above, but its is not only in the description and the implementation listed With it can be fully applied to various fields suitable for the present invention, for those skilled in the art, can be easily Realize other modification, therefore without departing from the general concept defined in the claims and the equivalent scope, the present invention is simultaneously unlimited In specific details.

Claims (10)

1. a kind of radiation protection, fire-retardant healthcare face fabric, which is characterized in that the fabric is blended using the raw material of following parts by weight composition It weaves:

50~60 parts of aromatic copolyamide fibre；

30~40 parts of metal chelate fiber；

10~15 parts of mint fibers.

2. radiation protection according to claim 1, fire-retardant healthcare face fabric, which is characterized in that further include the vinegar of 3~5 parts by weight Sour fiber.

3. radiation protection according to claim 1, fire-retardant healthcare face fabric, which is characterized in that further include the glutinous of 1~4 parts by weight Glue fiber.

4. radiation protection according to claim 3, fire-retardant healthcare face fabric, which is characterized in that further include 2~4 parts by weight Tencel fiber.

5. radiation protection according to claim 1, fire-retardant healthcare face fabric, which is characterized in that further include 10~20 parts by weight Vinal.

6. radiation protection according to claim 5, fire-retardant healthcare face fabric, which is characterized in that the vinal contains 6 The antiradiation agent of the ceramic powders of~8wt%, the coupling agent of 0.5~1wt% and 3~5wt%.

7. radiation protection according to claim 6, fire-retardant healthcare face fabric, which is characterized in that by weight, the ceramic powder End includes following components: 30~40 parts of calcium carbonate, 10~20 parts of talcum powder, 10~20 parts of zeolites.

8. radiation protection according to claim 6, fire-retardant healthcare face fabric, which is characterized in that by weight, the radiation protection Agent includes following components: 30~40 parts of Quercetins, 20~30 parts of tea polyphenols, 5~10 parts of sodium gluconates, 8~12 parts of dried orange peels.

9. radiation protection according to claim 6, fire-retardant healthcare face fabric, which is characterized in that by weight, the coupling agent Including following components: 30~40 parts of N- (β-aminoethyl)-γ-aminopropyltrimethoxysilanes and 20~30 parts of bis- (two octyloxies Pyrophosphoric acid ester group) ethylene titanate esters.

10. such as the described in any item radiation protections of claim 5~9, fire-retardant healthcare face fabric, which is characterized in that the polyvinyl alcohol Negative-ion fiber is prepared by following step:

(1) calcium carbonate, talcum powder, zeolite are mixed, the ceramic powders that average grain diameter is 50-70nm is crushed to after sintering；

(2) by N- (β-aminoethyl)-γ-aminopropyltrimethoxysilane, Di(dioctylpyrophosphato) ethylene titanate It is mixed with the ceramic powders, obtains modified ceramic powder；

(3) it by the modified ceramic powder and antiradiation agent, polyvinyl alcohol blending, squeezes out, slice, obtained negative ion polypropylene is cut Piece；

(4) the anion polyvinyl alcohol is sliced heating melting, squeezed, spinneret molding.