CN111877012A - Water-repellent crease-resistant finishing method for wool-cotton worsted fabric - Google Patents

Abstract

The invention discloses a water-repellent crease-resistant finishing method of a wool-cotton worsted fabric, which comprises the following steps: s1: hydrolyzing alcohol soluble protein with alkaline protease, heating for enzymolysis to inactivate enzyme, centrifuging, collecting supernatant, and dialyzing to obtain polypeptide; s2: soaking the wool-cotton worsted fabric in a reduction treatment solution, heating to 55-70 ℃, carrying out heat preservation reaction, then cooling, taking out the wool-cotton worsted fabric, cleaning and drying, wherein the reduction treatment solution mainly comprises polypeptide obtained in S1, ethanol, a reducing agent and an alkaline pH value regulator; s3: padding and finishing the wool and cotton worsted fabric obtained by the S2 by using alkaline perfluoroalkyl polyacrylate water repellent finishing liquid, and prebaking to obtain the water repellent shrink-proof wool and cotton worsted fabric. In the water-repellent crease-resistant finishing method of the wool-cotton worsted fabric, the polypeptide finishing improves the hydrophobicity of the wool-cotton worsted fabric, and the fabric can be crease-resistant and stiff; the perfluoroalkyl polyacrylate can make the surface of the fabric smoother and more water repellent, and the durability of the crease resistance of the fabric is improved.

Description

Water-repellent crease-resistant finishing method for wool-cotton worsted fabric

Technical Field

The invention relates to the technical field of wool-cotton worsted fabric production, in particular to a water-repellent crease-resistant finishing method of a wool-cotton worsted fabric.

Background

The film forming substances in the anti-felting finishing liquid of the wool fabric mainly comprise the following three substances: polyurethanes, proteins, chitosans, polysiloxanes. The protein in the finishing liquid mainly comprises wool keratin, silk fibroin, sericin and the like. The basic principle of the protein finishing agent is to form a layer of protein coating on the surface of wool fibers, particularly to enable the concave-convex structure of the wool fiber scale layer to be smoother and enhance the pilling resistance of wool fiber fabrics.

In order to secure the film-forming strength on the fiber surface, the amount of polyurethane used in the finishing liquid needs to be increased as much as possible, but too much amount of polyurethane causes deterioration of the hand feeling. In the improved technical scheme, a compound film-forming substance is mostly adopted, for example, a nanocrystalline cellulose and polyurethane compound, a chitosan and polyurethane compound, a proteolytic polypeptide and chitosan compound and the like.

CN103387598A discloses a textile finishing agent compounded with film-forming substances, wherein wool keratin polypeptide, sericin polypeptide and fibroin polypeptide are used as polypeptide raw materials, aqueous polyurethane and acrylate adhesive emulsion are used as formaldehyde-free adhesives, and wool keratin, fibroin and sericin all contain a large amount of hydrophilic amino acid residues, so that the hydrophilicity of the formed film on the surface of textile fibers is good. The wool-cotton worsted fabric contains a certain proportion of cotton fibers, compared with a full wool fabric, the crease resistance of the wool-cotton worsted fabric is poor, the perfluoro alkyl polyacrylate finished wool-cotton worsted fabric in the prior art has good water repellency and shrink resistance and smooth surface, but the improvement on the crease resistance and stiffness degree of the fabric is limited, and particularly the worsted fabric with the cotton content of more than 50 percent.

Disclosure of Invention

One of the purposes of the invention is to overcome the defects in the prior art and provide a water-repellent crease-resistant finishing method for wool-cotton worsted fabric, wherein polypeptide finishing and perfluoroalkyl polyacrylate water-repellent finishing liquid finishing are combined, and the finished fabric has good water-repellent shrink-resistant performance and improved stiffness and smoothness.

In order to achieve the technical effects, the technical scheme of the invention is as follows: a water-repellent crease-resistant finishing method of a wool-cotton worsted fabric comprises the following steps:

s1: hydrolyzing alcohol soluble protein with alkaline protease, heating for enzymolysis to inactivate enzyme, centrifuging, collecting supernatant, and dialyzing to obtain polypeptide;

s2: soaking the wool-cotton worsted fabric in a reduction treatment solution, heating to 55-70 ℃, carrying out heat preservation reaction, then cooling, taking out the wool-cotton worsted fabric, cleaning and drying, wherein the reduction treatment solution mainly comprises polypeptide obtained in S1, ethanol, a reducing agent and an alkaline pH value regulator;

s3: padding and finishing the wool and cotton worsted fabric obtained by the S2 by using alkaline perfluoroalkyl polyacrylate water repellent finishing liquid, and prebaking to obtain the water repellent shrink-proof wool and cotton worsted fabric.

The preferable technical scheme is that the enzyme-substrate ratio of the alkaline protease to the alcohol soluble protein is 100-150 mAU/g, the pH value of a hydrolysis system is 9-11, the enzymolysis reaction temperature is 40-50 ℃, and the reaction time is 3-6 hours.

The preferable technical scheme is that on the basis of the weight of the wool-cotton worsted fabric, the reducing agent in the reduction treatment liquid is mercaptoethanol, the using amount of the reducing agent is 1-5% o.w.f., the using amount of the polypeptide is 1-7% o.w.f., the mass percentage of the ethanol in the reduction treatment liquid is 15-35%, and the pH value of the reduction treatment liquid is 8-9. The use amount of the polypeptide is too large, the grafting weight gain rate is increased, and the adsorption of perfluoroalkyl polyacrylate on the fiber surface is not facilitated. The ethanol in the reduction treatment liquid has the function of promoting the dissolution of the polypeptide, and the weight gain rate of the wool-cotton worsted fabric is increased along with the increase of the dosage of the polypeptide within the range of 1-7% o.w.f. Because wool has certain anti-wrinkle performance, if the dosage of the polypeptide is too small, the anti-wrinkle stiffness and smoothness of the fabric are not obviously improved.

The preferable technical scheme is that the relative molecular weight of the polypeptide is 0.2-0.8 Kda. When the relative molecular weight of the polypeptide is more than 0.8Kda, the water repellency, anti-wrinkle durability of the wool-surface worsted fabric is obviously reduced. When the relative molecular weight of the polypeptide is less than 0.2Kda, the water repellency of the fabric can be improved by polypeptide finishing, but the effect of improving the anti-wrinkle performance of the fabric is not obvious.

The preferable technical scheme is that the perfluoroalkyl polyacrylate water repellent finishing liquid in the S3 is a non-ionic emulsion of perfluoroalkyl polyacrylate, and the amount of perfluoroalkyl polyacrylate is 6.5-10% based on the weight of the wool and cotton worsted fabric.

The preferable technical scheme is that the padding rate of padding finishing in S3 is 80-90%, and the reaction temperature of perfluoroalkyl polyacrylate water repellent finishing liquid is 40-45 ℃. The water repellent finish effect becomes poor at too low a temperature.

The preferable technical scheme is that the baking temperature in S3 is 140-150 ℃. The baking temperature is too low, which is not favorable for the full reaction between the finishing agent and the fiber, and is not favorable for the water washing resistance and durability of the finishing effect.

The preferable technical scheme is that the reduction treatment fluid also comprises diglycolic acid; the weight of the worsted wool-cotton fabric is taken as a reference, and the using amount of diglycolic acid is 0.2-0.8% o.w.f. The micromolecular glycolic acid is beneficial to improving the weight gain rate of the fabric after polypeptide finishing, and can also improve the durability of water-repellent crease-resistant finishing of the fabric.

The invention has the advantages and beneficial effects that:

according to the water-repellent crease-resistant finishing method of the wool-cotton worsted fabric, the wool-cotton worsted fabric is subjected to two steps of polypeptide finishing and perfluoroalkyl polyacrylate water-repellent finishing liquid finishing in sequence, a reducing agent is used for reducing disulfide bonds of wool fibers in the fabric, newly generated sulfydryl and cysteine residues in polypeptide are reconstructed to generate new disulfide bonds, and/or terminal carboxyl of polypeptide chain reacts with hydroxyl on the surface of the cotton fibers. Because the main composition amino acid of the polypeptide chain is hydrophobic amino acid, the hydrophobic performance of the wool-cotton worsted fabric can be improved by polypeptide finishing, and the wool-cotton worsted fabric can be more crease-resistant and stiff and smooth; the perfluoroalkyl polyacrylate can make the surface of the fabric smoother and more water repellent, and further improve the durability of the crease resistance of the fabric.

Detailed Description

The following further describes embodiments of the present invention with reference to examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

The water-repellent crease-resistant finishing is carried out on the wool-cotton spinning fabric, and the wool-cotton spinning fabric comprises the following fibers: 30% wool, 70% cotton and a gram weight of 205g/m²And the source of the fabric is as follows: jiangsu sunshine group;

prolamin: zein, which is food-grade and has the content of 99.5 percent;

perfluoroalkyl polyacrylate: nonionic emulsion containing 28% of dihydropentadecafluorooctyl polyacrylate, FC-208, 3M; the perfluoroalkyl polyacrylate finishing liquid contains FC-20815 percent, sodium acetate 3 percent and the balance of water, and the pH value is alkaline.

Example 1

The water-repellent crease-resistant finishing method of the wool-cotton worsted fabric comprises the following steps:

s1: dispersing alcohol soluble protein in water, adjusting the pH value of alcohol soluble protein dispersion to 9.5 by using an alkaline pH value regulator sodium hydroxide solution, heating to 40-45 ℃, adding alkaline protease into the alcohol soluble protein dispersion according to the enzyme substrate ratio of 120mAU/g, carrying out heat preservation reaction for 6 hours, then heating to 95 ℃ to inactivate enzyme, cooling, centrifuging, taking supernatant, separating polypeptides with different relative molecular weights of 0.2-0.8 Kda by using a dialysis bag, and concentrating to obtain polypeptide dispersion;

s2: mixing the polypeptide dispersion liquid, ethanol and a reducing agent thioglycolic acid in water, adding a sodium hydroxide solution to obtain a reduction treatment solution with the pH value of 8.5, soaking the wool and cotton worsted fabric in the reduction treatment solution, heating to 65-70 ℃, carrying out heat preservation reaction, then cooling, taking out the wool and cotton worsted fabric, cleaning and drying; the dosage of the reducing agent is 4% o.w.f., the dosage of the polypeptide is 5% o.w.f., the mass percentage of the ethanol in the reduction treatment liquid is 25%, and the bath ratio is 1: 20;

s3: and (2) soaking the wool and cotton worsted fabric obtained by the double-rolling finishing S2 in an alkaline perfluoroalkyl polyacrylate water repellent finishing liquid at the temperature of 40-45 ℃ at the bath ratio of 1:30, with the rolling residual rate of 80%, pre-drying at the temperature of 100 ℃ until drying, and baking at the temperature of 145-150 ℃ for 150 seconds to obtain the water repellent shrink-proof wool and cotton worsted fabric.

Examples 2 to 3

Examples 2-3 are based on example 1, except that the relative molecular weight of the polypeptide of example 2 is 0.2Kda or less, and the relative molecular weight of the polypeptide of example 3 is 0.8Kda to 1.5 Kda.

Examples 4 to 6

Examples 4-6 are based on example 1 with the difference that the reducing treatment solution of example 4 further comprises diglycolic acid 0.1% o.w.f, the reducing treatment solution of example 5 further comprises diglycolic acid 0.5% o.w.f, and the reducing treatment solution of example 6 further comprises a crosslinking agent glutaraldehyde 0.5% o.w.f, which is commonly used for protein finishing, based on the weight of the wool/cotton worsted fabric.

Examples 7 to 8

Example 7 is based on example 1, except that the baking temperature in S3 is 125-130 ℃.

Example 8 is based on example 1 with the difference that in S3 the wool worsted face fabric is finished at ambient temperature and the perfluoroalkyl polyacrylate is used in an amount of 15% based on the weight of the wool worsted face fabric.

Example 9

Example 9 is based on example 1 with the difference that the amount of reducing agent is 2% o.w.f., the amount of polypeptide is 2% o.w.f., the mass percentage of ethanol in the reduction treatment fluid is 15%, and the pH of the reduction treatment fluid is 8.

Comparative example:

comparative example 1 comprises the steps of S1 and S2 in example 1, and the plus material obtained in S2 is baked for 150 seconds at 145-150 ℃.

Comparative example 2 a S3 perfluoroalkyl polyacrylate finish was made directly on wool worsted face fabric.

The samples obtained in the examples and comparative examples were tested for the following properties:

1. and (3) detecting the static water absorption performance: dripping a drop of water on the surface of the paved fabric by a standard dropper of 25 drops/ml at a position 2cm away from the worsted cotton fabric, measuring the time for the fabric to completely absorb the drop of water under the completely static condition, paralleling 10 samples, and taking an average value;

2. testing the wrinkle recovery angle of the wool and cotton worsted fabric according to the AATCC test method 66-2008, and removing the average value after 5 times of each pass through the weft direction;

3. and (3) testing water resistance: washing the wool and cotton worsted fabric for 10 times according to the washing standard of the International wool agency TM31 wool textile product, and measuring the static water absorption performance and the wrinkle recovery angle of the washed wool and cotton worsted fabric according to the methods 1 and 2;

static water absorption time: the static water absorption time of the unfinished wool-cotton fabric was 1.4s, and the static water absorption times of examples 1 to 9 and comparative examples 1 to 2 were: the static water absorption times of examples 1-9 and comparative example 2 were each greater than 6h, whereas the static water absorption time of comparative example 1 was 42 s.

After 10 standard washes, the static water absorption times of examples 1-3 were 5.7h, 5.9h, and 5.3h, respectively, the static water absorption times of examples 4-6 were greater than 6h, and the static water absorption times of examples 7-9 and comparative examples 1-2 were 5.3h, 5.5h, 4.8h, 8s, and 4.6h, respectively.

Crease recovery angle (warp + weft): the wrinkle recovery angles of examples 1 to 9 and comparative examples 1 to 2 were: 255 °, 220 °, 260 °, 270 °, 265 °, 225 °, 230 °, 215 °, 205 °, 185 °.

After 10 standard washes, the wrinkle recovery angle (warp + weft) for examples 1-9 was: 240 °, 210 °, 235 °, 250 °, 265 °, 260 °, 210 °, 220 °, 205 °.

The wool-cotton worsted fabric sequentially finished by the polypeptide and the perfluoroalkyl polyacrylate has obviously improved water repellency and crease resistance, good water washing resistance of the water repellency and crease resistance, smooth surface and high wearing comfort.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A water-repellent crease-resistant finishing method of a wool-cotton worsted fabric is characterized by comprising the following steps:

s1: hydrolyzing alcohol soluble protein with alkaline protease, heating for enzymolysis to inactivate enzyme, centrifuging, collecting supernatant, and dialyzing to obtain polypeptide;

s2: soaking the wool-cotton worsted fabric in a reduction treatment solution, heating to 55-70 ℃, carrying out heat preservation reaction, then cooling, taking out the wool-cotton worsted fabric, cleaning and drying, wherein the reduction treatment solution mainly comprises polypeptide obtained in S1, ethanol, a reducing agent and an alkaline pH value regulator;

s3: padding and finishing the wool and cotton worsted fabric obtained by the S2 by using alkaline perfluoroalkyl polyacrylate water repellent finishing liquid, and prebaking to obtain the water repellent shrink-proof wool and cotton worsted fabric.

2. The water-repellent crease-resistant finishing method of wool and cotton worsted fabric according to claim 1, characterized in that the enzyme-substrate ratio of the alkaline protease to the alcohol soluble protein is 100-150 mAU/g, the pH value of a hydrolysis system is 9-11, the enzymolysis reaction temperature is 40-50 ℃, and the reaction time is 3-6 h.

3. The water-repellent crease-resistant finishing method of wool and cotton worsted fabric according to claim 1, characterized in that based on the weight of the wool and cotton worsted fabric, the reducing agent in the reduction treatment liquid is mercaptoethanol, the amount of the reducing agent is 1-5% o.w.f., the amount of the polypeptide is 1-7% o.w.f., the mass percentage of ethanol in the reduction treatment liquid is 15-35%, and the pH value of the reduction treatment liquid is 8-9.

4. The water-repellent crease-resistant finishing method of wool-cotton worsted fabric according to claim 1, characterized in that the relative molecular weight of the polypeptide is 0.2-0.8 Kda.

5. The water-repellent crease-resistant finishing method of wool and cotton worsted fabric according to claim 1, characterized in that the perfluoroalkyl polyacrylate water-repellent finishing liquid in S3 is a non-ionic emulsion of perfluoroalkyl polyacrylate, and the amount of perfluoroalkyl polyacrylate is 6.5-10% based on the weight of the wool and cotton worsted fabric.

6. The water-repellent crease-resistant finishing method of wool-cotton worsted fabric according to claim 5, characterized in that the padding rate of padding finishing in S3 is 80-90%, and the reaction temperature of perfluoroalkyl polyacrylate water-repellent finishing liquid is 40-45 ℃.

7. The water-repellent crease-resistant finishing method of wool-cotton worsted fabric according to claim 6, characterized in that the baking temperature in S3 is 140-150 ℃.

8. The water-repellent crease-resistant finishing method of wool-cotton worsted fabric according to claim 1, characterized in that the reduction treatment liquid further comprises diglycolic acid; the weight of the worsted wool-cotton fabric is taken as a reference, and the using amount of diglycolic acid is 0.2-0.8% o.w.f.