CN106988111A - Carbon fiber blending fabric coating and preparation method thereof and coating method - Google Patents

Abstract

A kind of carbon fiber blending fabric coating, it includes following components (per 100ml)：5~15ml of glycerine, 0.5~2ml of wetting agent, 2.5~4ml of defoamer, 3~4ml of dispersant, 3~5ml of coalescents, 30~40g of expanded perlite granule, 40~50g of nano titanium dioxide powder, 70~95g of emulsion, remaining is deionized water；And PH is more than 6.5 and is less than 8.5, is adjusted using PH conditioning agents；The granularity of the expanded perlite granule is at least 300 mesh, and nano titanium dioxide powder is 10~50 nanometers.The preparation method of carbon fiber blending fabric coating, it is comprised the steps of：1) expanded perlite granule is made；2) component expanded perlite granule and nano titanium dioxide powder are pressed；3) component surplus stock is then pressed；4) PH is adjusted；5) dispense and pack.The coating method of carbon fiber blending fabric coating, it is comprised the steps of：1) fabric pre-treatment；2) coatings；3) pack：Winding, packing.Compared with prior art, the characteristics of present invention has large-scale production, product fastness to washing preferably and produces relatively easy.

Description

Carbon fiber blending fabric coating and preparation method thereof and coating method

Technical field

The invention belongs to multifunctional textile lining field, and in particular to a kind of carbon fiber blending fabric coating and its preparation Method and coating method.

Background technology

Formaldehyde (formaldehyde, HCHO) is commonly called as formaldehyde, is waved in recent years as a kind of most commonly seen in room air Organic matter is sent out, is also a key factor of indoor pollution.Formaldehyde is a kind of primary toxin, formaldehyde in air can to eye, nose, Larynx, skin etc. produce obvious stimulation, can induce the oxidative damage of each histoorgan, induced tumor, gene mutation etc. Various diseases.Therefore Long Term Contact can make one One's spirits are drooping depressed failure of memory, how effectively remove in room air Formaldehyde turns into the focus of current research.Metal oxide semiconductor material is frequently utilized for being harmful to because susceptibility high price is cheap Gas-monitoring field, wherein TiO2 are because safety non-toxic, performance are stable, the low many merits of cost and receive much concern.Yang etc. It was found that TiO2 under uv illumination in room temperature environment can effectively degradation of formaldehyde molecule so as to proving that TiO2 base optic catalytic materials exist The feasibility of this kind of pernicious gas technically and application prospect economically are handled at room temperature.Li etc. has found what is be combined with Y2O3 TiO2 as the sensor that is made of detection material have the higher susceptibility of good stability and the faster speed of response because And it is adapted to continue to monitor the formaldehyde pollution situation in air.Chen etc. is thin using the porous TiO2 and ZnO of UV-activated Film sensors detect formaldehyde gas.Very promising TiO2 nanotubes also can degradation of formaldehyde gas at room temperature in addition. These fruitful researchs show there is important application using the formaldehyde gas in TiO2 base catalyst degradation indoor environments Prospect.

Nano material is increasingly paid close attention in exploitation multifunctional textile product field by people, wherein having certain representational It is the application of nano TiO 2.The Teng Dao of Tokyo Univ Japan in 1967 has found TiO2 single crystals electrodes by light in an experiment Photooxidation and reduction reaction can be produced after irradiation and hydrogen and oxygen is split water into.This excellent light that nano TiO 2 has is urged Change various pollutants of the performance not only in decomposable asymmetric choice net water and air, the particularly formaldehyde in room air, it may also be used for sterilization disappears Poison, absorbs ultraviolet etc..Having turned into the fields such as biology, medical science, chemical industry, material has the catalysis material of applications well prospect One of.

Research at present both at home and abroad to formaldehyde degradation by photocatalytic oxidation process household textiles is also less.South China Science ＆ Engineering University king happiness China etc. People has carried out absorption and the research of degradation property to a variety of coating papers using nano TiO 2 modification bamboo charcoal as pigment.Coating paper can have Effect ground absorption degradation formaldehyde, when modification bamboo charcoal consumption (accounting for pigment) is 30%, in 0.8mgm-3 formaldehyde initial mass concentration Under, ultraviolet lighting 3h, the absorption degradation rate of PARA FORMALDEHYDE PRILLS(91,95) is up to 93.75%.The nano TiO 2 of preparation is arranged and arrived by history member member et al. Preferably finishing technique is bath raio 1 on fabric：10, crosslinking agent 40g/L, photochemical catalyst 2g/L, fabric after arranging on this condition Ultraviolet protection index UPF values exceeded 15 reached Australia sun-proof apparel standards, fabric is in ultraviolet light after arrangement The photocatalysis Decomposition efficiency of PARA FORMALDEHYDE PRILLS(91,95) can reach that the strength of fabric and whiteness become after more than 90, arrangement in 200min according under the conditions of Change little.But because the catalytic degradation performance of the formaldehyde adsorption limited efficacy of textile, therefore PARA FORMALDEHYDE PRILLS(91,95) also have received textile The limitation of absorption property, and the fastness to washing of household textiles is not good, also limit photocatalysis adsorption-decomposition function formaldehyde textile Using.Therefore there is presently no the coating and method that can mass produce photocatalysis adsorption-decomposition function formaldehyde weaving face fabric.

The content of the invention

It is an object of the invention to provide a kind of large-scale production, product fastness to washing is preferable and produces relatively easy carbon Fabric lining coating.

Technical scheme：

The present invention is to provide a kind of carbon fiber blending fabric coating, it includes following components (per 100ml)：Glycerine 5~ 15ml, 0.5~2ml of wetting agent, 2.5~4ml of defoamer, 3~4ml of dispersant, 3~5ml of coalescents, expanded perlite granule 30~40g, 40~50g of nano titanium dioxide powder, 70~95g of emulsion, remaining is deionized water；And PH is less than more than 6.5 8.5, adjusted using PH conditioning agents；The granularity of the expanded perlite granule is at least 300 mesh, and nano titanium dioxide powder is 10~50 nanometers.

5~the 10ml of glycerine, 0.5~2ml of wetting agent, 3~4ml of defoamer, 3~4ml of dispersant, coalescents 3 ~4ml, 30~40g of expanded perlite granule, 45~50g of nano titanium dioxide powder, 75~90g of emulsion, remaining is deionization Water.

The granularity of the expanded perlite granule is at least 300 mesh, and nano titanium dioxide powder is 10~30 nanometers.

The PH is 7.5.

The coalescents are Texanol.

Another object of the present invention is to provide the preparation method of the carbon fiber blending fabric coating described in claim 1, its feature It is：It is comprised the steps of：

1) perlite is crushed, is ground to granularity and is at least 300 mesh, and frying is into expanded perlite granule；

2) component (per 100ml) is then pressed by 40~50g of 30~40g of expanded perlite granule and nano titanium dioxide powder It is put into mixer, 1.5~2ml of dispersant is added after 2~5min of stirring, continues to stir 10~20min；

3) 5~15ml of glycerine, 0.5~2ml of wetting agent, 2.5~4ml of defoamer then are added by component (per 100ml), Remaining dispersant, 3~5ml of coalescents, 70~95g of emulsion and ionized water, continue to stir 5~10min；

4) it is adjusted using PH conditioning agents so that PH is more than 6.5 and is less than 8.5；

5) dispense and pack.

5~the 10ml of glycerine, 0.5~2ml of wetting agent, 3~4ml of defoamer, 3~4ml of dispersant, coalescents 3 ~4ml, 30~40g of expanded perlite granule, 45~50g of nano titanium dioxide powder, 75~90g of emulsion, remaining is deionization Water.

The granularity of the expanded perlite granule is at least 300 mesh, and nano titanium dioxide powder is 10~30 nanometers.

The PH is 7.5；The coalescents are Texanol.

Another object of the present invention is to provide the coating method of the carbon fiber blending fabric coating described in Claims 1 to 5, and it is special Levy and be：It is comprised the steps of：

1) fabric pre-treatment：By carbon fiber blending fabric first by the acetone soln tank of boiling, it is stirred continuously in tank, water The width of groove is 2m, and temperature control is at 72 ± 1 DEG C；After air knife, enter back into 9~10%NaOH solution tanks, tank not Disconnected stirring, the width of tank is also 2m, then spends deionized water spray cleaning, then drying, rolling speed be 1m/10~ 20min；

2) coatings：By step 1) carbon fiber blending fabric is coated with carbon described in Claims 1 to 5 on coating machine after processing Fabric lining coating；

3) pack：Winding, packing.

After the present invention is using above-mentioned coating and preparation and coating method, beneficial effects of the present invention are as follows：

The carrier of absorption nano titanium dioxide powder, and above-mentioned pH value and nano-silica are used as using expanded perlite granule When changing the granularity of titanium powder, catalyst surface is negatively charged, and absorption of the reactant on surface is more effective so that nanometer titanium dioxide Titanium powder is more abundant with air contact, can not only improve the light-catalysed efficiency of nano titanium dioxide powder, and purification efficiency is also It is higher, while being also easier to be coated on carbon fiber blending fabric, and then greatly improve fastness to washing；And preparation process can be effective Ground prevents nano titanium dioxide powder from situation about reuniting occur, so as to ensure the using effect of nano titanium dioxide powder；Furthermore Due to have passed through pre-treatment so that the combination of coating and fabric is even closer, so as to greatly improve the fastness to washing height of fabric, Fabric after preparation have environmental protection, corrosion resistance it is good, with functional characteristics such as water repellencies.

Embodiment

Chemicals used below except glycerine for chemistry it is pure in addition to remaining be technical pure grade,

The present invention is to provide a kind of carbon fiber blending fabric coating, it includes following components (per 100ml)：Glycerine 5~ 15ml, 0.5~2ml of wetting agent, 2.5~4ml of defoamer, 3~4ml of dispersant, 3~5ml of coalescents, expanded perlite granule 30~40g, 40~50g of nano titanium dioxide powder, 70~95g of emulsion, remaining is deionized water；And PH is less than more than 6.5 8.5, adjusted using PH conditioning agents；The granularity of the expanded perlite granule is at least 300 mesh, nano titanium dioxide powder Granularity is 10~50 nanometers.Defoamer is the model THIX-318 that Yantai Thinking Finechem Technology Co., Ltd. produces；Wetting Agent, defoamer, PH conditioning agents and dispersant are the chemical Science and Technology Ltd.'s productions of Shandong Sheng Yuan；Glycerine is Weifang stars at dawn The 98% of work Science and Technology Ltd. production；Expanded perlite granule Puyang are bright up to the production of development in science and technology Co., Ltd；Nanometer two Titanium dioxide powder is purchased from Dongguan City titanic chemical industry Import and Export Co., Ltd.；Emulsion is Guangzhou Wei Pu chemical analysis Technology Co., Ltd. The model wp5235 of production water-proof emulsion.

5~the 10ml of glycerine, 0.5~2ml of wetting agent, 3~4ml of defoamer, 3~4ml of dispersant, coalescents 3 ~4ml, 30~40g of expanded perlite granule, 45~50g of nano titanium dioxide powder, 75~90g of emulsion, remaining is deionization Water.

The granularity of the expanded perlite granule is at least 300 mesh, and nano titanium dioxide powder is 10~30 nanometers.

The PH is 7.5.

The coalescents are Texanol, are the Texanol of Eastman Chemical's production.

The preparation method of carbon fiber blending fabric coating described in claim 1, it is comprised the steps of：

1) perlite is crushed, is ground to granularity and is at least 300 mesh, and frying is into expanded perlite granule；

2) component (per 100ml) is then pressed by 40~50g of 30~40g of expanded perlite granule and nano titanium dioxide powder It is put into mixer, 1.5~2ml of dispersant is added after 2~5min of stirring, continues to stir 10~20min；

3) 5~15ml of glycerine, 0.5~2ml of wetting agent, 2.5~4ml of defoamer then are added by component (per 100ml), Remaining dispersant, 3~5ml of coalescents, 70~95g of emulsion and ionized water, continue to stir 5~10min；

4) it is adjusted using PH conditioning agents so that PH is more than 6.5 and is less than 8.5；

5) dispense and pack.

5~the 10ml of glycerine, 0.5~2ml of wetting agent, 3~4ml of defoamer, 3~4ml of dispersant, coalescents 3 ~4ml, 30~40g of expanded perlite granule, 45~50g of nano titanium dioxide powder, 75~90g of emulsion, remaining is deionization Water.

The granularity of the expanded perlite granule is at least 300 mesh, and nano titanium dioxide powder is 10~30 nanometers.

The PH is 7.5；The coalescents are Texanol.

The coating method of carbon fiber blending fabric coating described in Claims 1 to 5, it is comprised the steps of：

1) fabric pre-treatment：By carbon fiber blending fabric first by the acetone soln tank of boiling, it is stirred continuously in tank, water The width of groove is 2m, and temperature control is at 72 ± 1 DEG C；After air knife, enter back into 9~10%NaOH solution tanks, tank not Disconnected stirring, the width of tank is also 2m, then spends deionized water spray cleaning, then drying, rolling speed be 1m/10~ 20min；

2) coatings：By step 1) carbon fiber blending fabric is coated with carbon described in Claims 1 to 5 on coating machine after processing Fabric lining coating；

3) pack：Winding, packing.

Embodiment one

The preparation method of carbon fiber blending fabric coating, it is comprised the steps of：

1) perlite is crushed, is ground to granularity for 300 mesh, and frying is into expanded perlite granule；

2) expanded perlite granule 30g and nano titanium dioxide powder 40g are then put into stirring by component (per 100ml) In machine, dispersant 1.5ml is added after stirring 2min, continues to stir 10min；Nano titanium dioxide powder is 10~50 nanometers；

3) then glycerine 5ml is added by component (per 100ml), wetting agent 0.5ml, defoamer 2.5ml are remaining scattered Agent 1.5ml, coalescents 3ml, emulsion 70g and ionized water, continue to stir 5min；

4) it is adjusted using PH conditioning agents so that PH is more than 6.5 and is less than 7.0；

5) dispense and pack.

Embodiment two

The preparation method of carbon fiber blending fabric coating, it is comprised the steps of：

1) perlite is crushed, is ground to granularity for 500 mesh, and frying is into expanded perlite granule；

2) expanded perlite granule 40g and nano titanium dioxide powder 50g are then put into stirring by component (per 100ml) In machine, dispersant 2ml is added after stirring 5min, continues to stir 20min；Nano titanium dioxide powder is 10~50 nanometers；

3) glycerine 15ml, wetting agent 2ml, defoamer 4ml, remaining dispersant then are added by component (per 100ml) 2ml, coalescents 5ml, 95g and ionized water, continue to stir 10min；

4) it is adjusted using PH conditioning agents so that PH is more than or equal to 7.0 and is less than 7.5；

5) dispense and pack.

Embodiment three

The preparation method of carbon fiber blending fabric coating, it is comprised the steps of：

1) perlite is crushed, is ground to granularity for 400 mesh, and frying is into expanded perlite granule；

2) expanded perlite granule 35g and nano titanium dioxide powder 45g are then put into stirring by component (per 100ml) In machine, dispersant 1.7ml is added after stirring 3min, continues to stir 15min；Nano titanium dioxide powder is 10~50 nanometers；

3) glycerine 10ml, wetting agent 4ml, defoamer 3ml, remaining dispersant then are added by component (per 100ml) 1.7ml, coalescents 4ml, emulsion 80g and ionized water, continue to stir 8min；

4) it is adjusted using PH conditioning agents so that PH is more than or equal to 7.5 and is less than 8.5；

5) dispense and pack.

Example IV

The preparation method of carbon fiber blending fabric coating, it is comprised the steps of：

1) perlite is crushed, is ground to granularity for 300 mesh, and frying is into expanded perlite granule；

2) expanded perlite granule 35g and nano titanium dioxide powder 45g are then put into stirring by component (per 100ml) In machine, dispersant 1.7ml is added after stirring 2.5min, continues to stir 16min；Nano titanium dioxide powder is 10~50 nanometers；

3) glycerine 10ml, wetting agent 1ml, defoamer 3ml, remaining dispersant then are added by component (per 100ml) 1.8ml, coalescents 4ml, emulsion 75g and ionized water, continue to stir 7min；

4) it is adjusted using PH conditioning agents so that PH is more than or equal to 7.5 and is less than 8.5；

5) dispense and pack.

Embodiment five

The preparation method of carbon fiber blending fabric coating, it is comprised the steps of：

1) perlite is crushed, is ground to granularity for 400 mesh, and frying is into expanded perlite granule；

2) expanded perlite granule 37g and nano titanium dioxide powder 48g are then put into stirring by component (per 100ml) In machine, dispersant 2ml is added after stirring 5min, continues to stir 20min；Nano titanium dioxide powder is 10~50 nanometers；

3) 5~15ml of glycerine, 0.5~2ml of wetting agent, 2.5~4ml of defoamer then are added by component (per 100ml), Remaining dispersant 1.5ml, coalescents ml, emulsion 90g and ionized water, continue to stir 9min；

4) it is adjusted using PH conditioning agents so that PH is more than or equal to 7.5 and is less than 8.5；

5) dispense and pack.

Hung with six onesize and concentration of formaldehyde closed containers and scribble common coating and above-described embodiment coating Cloth, places 6 hours at (morning in afternoon) at 9 points at 15 points under sunshine condition, as a result such as following table：

Claims (10)

1. a kind of carbon fiber blending fabric coating, it is characterised in that：It includes following components (per 100ml)：5~15ml of glycerine, 0.5~2ml of wetting agent, 2.5~4ml of defoamer, 3~4ml of dispersant, 3~5ml of coalescents, expanded perlite granule 30~ 40g, 40~50g of nano titanium dioxide powder, 70~95g of emulsion, remaining is deionized water；And PH is more than 6.5 and is less than 8.5, makes Adjusted with PH conditioning agents；The granularity of the expanded perlite granule is at least 300 mesh, and nano titanium dioxide powder is 10~50 Nanometer.

2. carbon fiber blending fabric coating according to claim 1, it is characterised in that：5~the 10ml of glycerine, wetting agent 0.5~2ml, 3~4ml of defoamer, 3~4ml of dispersant, 3~4ml of coalescents, 30~40g of expanded perlite granule, nanometer 45~50g of titania powder, 75~90g of emulsion, remaining is deionized water.

3. carbon fiber blending fabric coating according to claim 1, it is characterised in that：The particle of the expanded perlite granule It is at least 300 mesh to spend, and nano titanium dioxide powder is 10~30 nanometers.

4. carbon fiber blending fabric coating according to claim 1, it is characterised in that：The PH is 7.5.

5. carbon fiber blending fabric coating according to claim 2, it is characterised in that：The coalescents are Texanol.

6. the preparation method of carbon fiber blending fabric coating described in claim 1, it is characterised in that：It is comprised the steps of：

1) perlite is crushed, is ground to granularity and is at least 300 mesh, and frying is into expanded perlite granule；

2) then 30~40g of expanded perlite granule and 40~50g of nano titanium dioxide powder are put into by component (per 100ml) In mixer, 1.5~2ml of dispersant is added after 2~5min of stirring, continues to stir 10~20min；

3) 5~15ml of glycerine, 0.5~2ml of wetting agent, 2.5~4ml of defoamer then are added by component (per 100ml), it is remaining Dispersant, 3~5ml of coalescents, 70~95g of emulsion and ionized water continue to stir 5~10min；

4) it is adjusted using PH conditioning agents so that PH is more than 6.5 and is less than 8.5；

5) dispense and pack.

7. the preparation method of carbon fiber blending fabric coating according to claim 6, it is characterised in that：The glycerine 5~ 10ml, 0.5~2ml of wetting agent, 3~4ml of defoamer, 3~4ml of dispersant, 3~4ml of coalescents, expanded perlite granule 30 ~40g, 45~50g of nano titanium dioxide powder, 75~90g of emulsion, remaining is deionized water.

8. the preparation method of carbon fiber blending fabric coating according to claim 6, it is characterised in that：The expanded perlite The granularity of particle is at least 300 mesh, and nano titanium dioxide powder is 10~30 nanometers.

9. the preparation method of carbon fiber blending fabric coating according to claim 6, it is characterised in that：The PH is 7.5；Institute Coalescents are stated for Texanol.

10. the coating method of the carbon fiber blending fabric coating described in Claims 1 to 5, it is characterised in that：It includes following step Suddenly：

1) fabric pre-treatment：By carbon fiber blending fabric first by the acetone soln tank of boiling, it is stirred continuously in tank, tank Width is 2m, and temperature control is at 72 ± 1 DEG C；After air knife, enter back into and constantly stirred in 9~10%NaOH solution tanks, tank Mix, the width of tank is also 2m, then spends deionized water spray cleaning, then drying, and rolling speed is 1m/10~20min；

2) coatings：By step 1) carbon fiber blending fabric is coated with carbon fiber described in Claims 1 to 5 on coating machine after processing Fabric coating；

3) pack：Winding, packing.