CN110565238A - Cotton-nylon blended fabric of anti-static moisture-absorption sweat-discharge jean and preparation method thereof - Google Patents

Abstract

The invention discloses a cotton and nylon blended fabric of an anti-static moisture-absorbing and sweat-draining jean, which comprises 80-85% of combed cotton, 14.5-15.5% of polyesteramide (nylon) and 0.5-4.5% of conductive fiber, wherein the total mass percentage of the three fibers is 100%. The invention also discloses a preparation method of the cotton-nylon blended fabric, the cotton-nylon blended fabric prepared by the invention has the functions of static resistance, moisture absorption and sweat releasing, is a multifunctional fabric, has excellent performance, meets the relevant national standard and specification, can meet the requirements of industrial production and use, breaks through the limitation that the traditional cotton-nylon blended fabric only has a single function, and has strong market competitiveness and huge social and economic benefits.

Description

Cotton-nylon blended fabric of anti-static moisture-absorption sweat-discharge jean and preparation method thereof

Technical Field

The invention belongs to the technical field of functional textiles, and particularly relates to a cotton-nylon blended fabric of an anti-static moisture-absorption sweat-discharge jean and a preparation method of the cotton-nylon blended fabric.

Background

With the rapid development of economy and society in China, individual protective equipment is increasingly paid attention to people, and the task of ensuring the life and property safety of personnel becomes the first priority. Among various injuries of workers, the electrostatic disaster is one of the most common safety accidents, and the physical pain and psychological damage caused by the electrostatic disaster to people are the most serious. These potential injuries involve a large number of people in the petroleum, petrochemical, fire, military, electrical, metallurgical, chemical, mechanical, etc. industries, and the sources of heat that produce the injury include fires, explosions, molten metal splashes, etc. Therefore, the research and development of special protective clothing suitable for the petroleum and petrochemical industry is urgent.

In recent years, the jean fabric is popular with people, but the jean fabric also faces a relatively serious static problem, and how to prepare the jean fabric which has good quality and high cost performance and can achieve a good static protection effect is urgent.

Disclosure of Invention

The invention aims to provide a cotton-nylon blended fabric of an anti-static moisture-absorbing and sweat-draining jean, which solves the problem that the common jean fabric in the prior art only has single anti-static function.

The invention also aims to provide a preparation method of the cotton-nylon blended fabric.

The first technical scheme adopted by the invention is as follows: the antistatic moisture-absorbing sweat-discharging cotton-nylon blended fabric for the jeans comprises the following components in percentage by mass: 80-85% of combed cotton, 14.5-15.5% of polyesteramide, 0.5-4.5% of conductive fiber, and the sum of the mass percentages of the three fibers is 100%.

The first technical solution adopted by the present invention is further characterized in that,

The conductive fiber is any one of a metal fiber, a carbon black fiber, a conductive metal compound fiber, and a conductive polymer fiber.

The conductive fiber is nylon-based 20D/3F conductive yarn.

the warp and weft yarn structure of the cotton-nylon blended fabric is folded yarn, and the linear density of the warp and weft folded yarn is as follows: 9.5 multiplied by 2tex to 9.8 multiplied by 2 tex; the fabric weave structure of the cotton polyvinyl alcohol fiber blended fabric is 2/1 twill, and the unit area mass is as follows: 160-180 g/m²the twist of the warp and weft strands is as follows: 50-60 twists/10 cm.

The second technical scheme adopted by the invention is as follows: a preparation method of a cotton-nylon blended fabric of an antistatic moisture-absorbing sweat-draining jean is specifically implemented according to the following steps:

Step 1, anti-static grey cloth weaving

respectively weighing 80-85% of combed cotton, 14.5-15.5% of polyesteramide and 0.5-4.5% of conductive fiber according to the mass percent, wherein the sum of the mass percent of the combed cotton and the polyesteramide is 100%, firstly preparing the combed cotton and the polyesteramide into cotton/nylon blended yarns, and doubling and twisting the conductive yarns and a proper amount of the cotton/nylon blended yarns into conductive yarns;

Step 2, yarn dyeing

Adjusting the pH value of the water bath to 8-10, weighing an indigo dye, dissolving the indigo dye in water, uniformly stirring to obtain a dye solution with the concentration of 20-80 g/L, dyeing the remaining cotton/instrumental polyamide fiber blended yarn in the step 1 to obtain a dyed yarn, wherein the mass ratio of the remaining cotton/instrumental polyamide fiber blended yarn to the conductive yarn in the step 1 is 75-85: 1;

Step 3, weaving the colored cloth

Taking the conductive yarns obtained in the step 1 and the colored yarns obtained in the step 2 as raw materials for weaving the fabric, taking the colored yarns as warp yarns and weft yarns to weave grey cloth, and weaving the conductive yarns in the warp direction and the weft direction at intervals respectively in the weaving process to obtain the antistatic colored cloth;

Step 4, washing with water

removing the sizing agent generated by the cloth cover in the weaving process in the step 3, rinsing to wash out the cloth cover style, finally washing with cold water, and drying to obtain the cotton-nylon blended fabric of the antistatic moisture-absorption sweat-discharge jean.

The second technical solution adopted by the present invention is further characterized in that,

the twist of the conductive yarn in the step 1 is 25-50 twists/10 cm.

In the step 2, the dyeing speed is 20m/min, and the dyeing temperature is 22-28 ℃.

In the step 3, the distance between every two adjacent warp-wise conductive yarns is 0.5-2 cm, and the distance between every two adjacent weft-wise conductive yarns is 0.5-2 cm.

And 4, rinsing in the step 4, wherein the water temperature is 40-45 ℃.

The invention has the beneficial effects that:

(1) The cotton and nylon blended fabric has the functions of static resistance, moisture absorption and sweat releasing, is a multifunctional fabric, has excellent performance, meets the relevant national standard, can meet the requirements of industrial production and use, breaks through the limitation that the traditional cotton/nylon blended fabric only has a single function, and has strong market competitiveness and huge social and economic benefits.

(2) The preparation method of the cotton-nylon blended fabric has simple process, can be suitable for batch production, can be used in various occasions, and is particularly suitable for being used as special work clothes, such as industrial departments of coal, petrifaction, mining industry, gas and the like, troops of artillery, missile, satellite launching and the like, so as to avoid or reduce fire loss and personal safety accidents caused by static electricity, human errors, environmental factors and the like.

Detailed Description

The present invention will be described in detail with reference to the following embodiments.

the cotton and nylon blended fabric for the antistatic, moisture-absorbing and sweat-draining jeans comprises 80-85% of combed cotton, 14.5-15.5% of polyesteramide (nylon) and 0.5-4.5% of conductive fibers, wherein the total mass percentage of the three fibers is 100%.

The conductive fiber is any one of a metal fiber, a carbon black fiber, a conductive metal compound fiber, and a conductive polymer fiber.

Preferably, the conductive fiber is nylon-based 20D/3F conductive yarn.

the warp and weft yarn structure of the cotton polyvinyl alcohol fiber blended fabric is folded yarn, and the linear density of the warp and weft folded yarn is as follows: 9.5 multiplied by 2tex to 9.8 multiplied by 2 tex; the fabric weave structure of the cotton polyvinyl alcohol fiber blended fabric is 2/1 twill, and the unit area mass is as follows: 160-180 g/m²The twist of the warp and weft strands is as follows: 50-60 twists/10 cm.

A preparation method of a cotton-nylon blended fabric of an antistatic moisture-absorbing sweat-draining jean is specifically implemented according to the following steps:

Step 1, weaving antistatic grey cloth

The method comprises the following steps of weighing 80-85% of combed cotton, 14.5-15.5% of polyesteramide (Yilun) and 0.5-4.5% of conductive fiber according to the mass percentage, wherein the total mass percentage of the combed cotton and the polyesteramide is 100%, firstly preparing cotton/Yilun blended yarn from the combed cotton and the polyesteramide, and cabling the conductive fiber and a proper amount of the cotton/Yilun blended yarn into conductive yarn, wherein the twist degree of the conductive yarn is 25-50 twist/10 cm.

The conductive fiber may be any one of a metal fiber, a carbon black fiber, a conductive metal compound fiber, and a conductive polymer fiber.

Preferably, the conductive fiber is nylon-based 20D/3F conductive yarn.

Step 2, yarn dyeing

And (3) adjusting the pH value of the water bath to 8-10, weighing the indigo dye, dissolving the indigo dye in water, uniformly stirring to obtain a dye solution with the concentration of 20-80 g/L, and dyeing the cotton/instrumental fiber blended yarn remaining in the step (1) to obtain the dyed yarn. The dyeing speed is 20m/min, and the dyeing temperature is as follows: and (3) at 22-28 ℃, wherein the mass ratio of the residual cotton/nylon blended yarns to the conductive yarns in the step (1) is 75-85: 1.

In the step 2, the cowboy is dyed by the indigo dye, and the indigo dye is insoluble in water and has no affinity to water, so the cowboy cannot be directly dyed, and the indigo dye can be absorbed by the fiber after being reduced into a soluble leuco body by a reducing agent in an alkaline solution, and then the leuco body is oxidized into an insoluble indigo precipitate to be attached to the yarn so as to achieve the purpose of dyeing. While the indigo dye has low affinity to cotton and is difficult to dye, so a continuous dyeing method of low concentration, normal temperature and multiple padding oxidation is generally adopted.

Step 3, weaving the colored cloth

And (3) taking the conductive yarns obtained in the step (1) and the colored yarns obtained in the step (2) as raw materials for weaving the fabric, taking the colored yarns as warp yarns and weft yarns to weave grey cloth, weaving the conductive yarns in the warp direction and the weft direction at intervals in the weaving process, wherein the distance between every two adjacent conductive yarns in the warp direction is 0.5-2 cm, and the distance between every two adjacent conductive yarns in the weft direction is 0.5-2 cm, so that the antistatic colored cloth is prepared.

And 4, step 4: washing with water

Desizing enzyme is adopted to remove size generated by the cloth cover in the weaving process in the step 3, the cloth cover style is washed out through rinsing, the water temperature is 40-45 ℃ in rinsing, and finally cold water washing and drying are carried out to obtain the cotton-nylon blended fabric of the anti-static moisture-absorption sweat-discharge jean.

In the step 4, the water quality used for washing is preferably low, so that the washing effect is improved; the final pass rolling residual rate should be controlled as low as possible, so as to be beneficial to improving the drying efficiency and saving energy.

Compared with the prior art, the invention has the advantages that: the cotton instrument fiber blended fabric of the anti-static moisture-absorption sweat-discharge jean adopts the relationship between the content of different fibers and the protective performance of textiles, solves the technical problems of multi-component fiber blended spinning technology, yarn bundle dyeing and after finishing, simultaneously has the functions of static prevention, moisture absorption and sweat releasing, is a multifunctional jean fabric, has excellent performance, meets the relevant national standard regulation, can meet the requirements of industrial production and use, can be used in various occasions, is particularly suitable for being used as special working clothes, such as industrial departments of coal, petrifaction, mining industry, gas and the like, and troops such as artillery, missile, satellite launching and the like, breaks through the limitation that the traditional pure cotton jean only has single function, and has strong market competitiveness and huge social and economic benefits.

Example 1

The cotton-nylon blended fabric for the antistatic moisture-absorption sweat-discharge jeans is prepared by the following method:

Step 1, yarn preparation

Respectively weighing 80% of combed cotton, 15.5% of polyesteramide (nylon) and 4.5% of nylon-based 20D/3F conductive yarn according to the mass percent, wherein the sum of the mass percent of the combed cotton and the polyesteramide (nylon) is 100%, blending the weighed combed cotton and the polyesteramide (nylon) to prepare blended yarn with the count of 60/2S, and twisting the nylon-based 20D/3F conductive yarn and a proper amount of the blended yarn into conductive yarn with the twist of 25 twist/10 cm.

step 2, yarn dyeing

Weighing 1Kg of indigo dye, dissolving the indigo dye in water, uniformly stirring, adjusting the pH value of the solution to be 8 to obtain a dye solution with the concentration of 20g/L, and dyeing the residual blended yarns in the step 1 to obtain dyed yarns; the dyeing speed is 20m/min, the dyeing temperature is 22 ℃, and the mass ratio of the residual blended yarn to the conductive yarn is 75: 1.

Step 3, weaving the colored cloth

Selecting the colored yarns obtained in the step 2, warping, sizing, weaving, and weaving conductive yarns at intervals in the weaving process to obtain the anti-static grid colored cloth; the distance between every two adjacent conductive yarns in the warp direction is 0.5cm, and the distance between every two adjacent conductive yarns in the weft direction is 0.5 cm.

Step 4, washing with water

Desizing enzyme is adopted to remove size generated by cloth in the weaving process, the cloth style is washed out by rinsing, the water temperature is controlled at 40 ℃, and finally the cloth is washed by cold water and dried to obtain the anti-static moisture-absorption sweat-discharge jean fabric.

Example 2

the cotton-nylon blended fabric for the antistatic moisture-absorption sweat-discharge jeans is prepared by the following method:

Step 1, yarn preparation

Respectively weighing 83% of combed cotton, 14% of polyesteramide (nylon) and 3% of nylon-based 20D/3F conductive yarn according to the mass percentage, wherein the sum of the mass percentage of the combed cotton and the polyesteramide (nylon) is 100%, blending the weighed combed cotton and the polyesteramide (nylon) to prepare blended yarn with the count of 60/2S, and twisting the nylon-based 20D/3F conductive yarn and a proper amount of the blended yarn into conductive yarn with the twist of 40 twists/10 cm.

Step 2, yarn dyeing

Weighing 2.5Kg of indigo dye, dissolving the indigo dye in water, stirring uniformly, adjusting the pH value of the solution to 8 to obtain a dye solution with the concentration of 40g/L, and dyeing the residual blended yarns in the step 1 to obtain dyed yarns; the dyeing speed is 20m/min, the dyeing temperature is 25 ℃, and the mass ratio of the residual blended yarn to the conductive yarn is 80: 1.

Step 3, weaving the colored cloth

Selecting the colored yarns obtained in the step 2, warping, sizing, weaving the conductive yarns obtained in the step 1 at intervals in the weaving process, and obtaining the anti-static grid colored cloth; the distance between every two adjacent conductive yarns in the warp direction is 0.9cm, and the distance between every two adjacent conductive yarns in the weft direction is 0.8 cm.

step 4, washing with water

Desizing enzyme is adopted to remove size generated by cloth in the weaving process, the cloth style is washed out by rinsing, the water temperature is controlled to be 43 ℃, and finally the anti-static moisture-absorbing and sweat-discharging jean fabric is obtained by washing with cold water and drying.

example 3

The cotton-nylon blended fabric for the antistatic moisture-absorption sweat-discharge jeans is prepared by the following method:

Step 1, yarn preparation

Respectively weighing 85% of combed cotton, 14.5% of polyester amide (nylon) and 0.5% of nylon-based 20D/3F conductive yarn according to the mass percentage, wherein the sum of the mass percentage of the three fibers is 100%, blending the weighed combed cotton and the polyester amide (nylon) to prepare blended yarn with the count of 60/2S, and twisting the nylon-based 20D/3F conductive yarn and a proper amount of the blended yarn into conductive yarn with the twist of 50 twist/10 cm.

Step 2, yarn dyeing

Weighing 4Kg of indigo dye, dissolving the indigo dye in water, stirring uniformly, adjusting the pH value of the solution to 10 to obtain a dye solution with the concentration of 80g/L, and dyeing the blended yarn left in the step 1 to obtain dyed yarn; the dyeing speed is 20m/min, the dyeing temperature is 28 ℃, and the mass ratio of the residual blended yarn to the conductive yarn is 85: 1.

Step 3, weaving the colored cloth

selecting the colored yarns obtained in the step 2, warping, sizing, weaving the conductive yarns obtained in the step 1 at intervals in the weaving process, and obtaining the anti-static grid colored cloth; the distance between every two warp-wise adjacent conductive yarns is 2cm, and the distance between every two weft-wise adjacent conductive yarns is 2 cm.

Step 4, washing with water

Desizing enzyme is adopted to remove size generated by cloth in the weaving process, the cloth style is washed out by rinsing, the water temperature is controlled at 45 ℃, and finally the jean fabric is washed by cold water and dried to obtain the anti-static moisture-absorption sweat-discharge jean fabric.

the cotton-nylon blended fabric of the antistatic moisture-absorption sweat-discharge jeans of the embodiment 1-3 is subjected to fabric point-to-point resistance detection and moisture-absorption sweat-discharge detection according to the national standard, and the results are shown in table 1.

TABLE 1 detection of the Performance of the Cotton/Polylon blended fabric of anti-static, moisture-absorbing and sweat-draining jeans

According to the test results, the antistatic performance of the cotton/nylon blended fabric of the antistatic moisture-absorption sweat-discharge jean can reach the national standard B-level requirement, and the indexes are close to or reach the A-level standard requirement; the moisture absorption and sweat releasing performance exceeds the standard requirement, so the fabric has excellent antistatic, moisture absorption and sweat releasing functions, meets the national standard regulation, greatly exceeds the grade of the existing fabric in the market, and can meet the requirements of industrial production and use.

Claims (9)

1. The antistatic moisture-absorbing sweat-discharging cotton-nylon blended fabric for the jeans is characterized by comprising the following components in percentage by mass: 80-85% of combed cotton, 14.5-15.5% of polyesteramide, 0.5-4.5% of conductive fiber, and the sum of the mass percentages of the three fibers is 100%.

2. The blended fabric of cotton aramid fiber for antistatic, moisture-absorbing and sweat-removing jean as claimed in claim 1, wherein the conductive fiber is any one of metal fiber, carbon black fiber, conductive metal compound fiber and conductive polymer fiber.

3. the blended fabric of cotton instrumental fiber of the antistatic moisture-absorbing and sweat-draining jean as claimed in claim 2, wherein the conductive fiber is nylon-based 20D/3F conductive yarn.

4. The cotton-nylon blended fabric of the antistatic moisture-absorption sweat-discharge jean as claimed in claim 1,The warp and weft yarn structure of the cotton polyvinyl alcohol fiber blended fabric is folded yarn, and the linear density of the warp and weft folded yarn is as follows: 9.5 multiplied by 2tex to 9.8 multiplied by 2 tex; the fabric weave structure of the cotton polyvinyl alcohol fiber blended fabric is 2/1 twill, and the unit area mass is as follows: 160-180 g/m²The twist of the warp and weft strands is as follows: 50-60 twists/10 cm.

5. the preparation method of the cotton-nylon blended fabric of the antistatic moisture-absorbing and sweat-draining jean as claimed in claim 1 is characterized by comprising the following steps:

Step 1, anti-static grey cloth weaving

Respectively weighing 80-85% of combed cotton, 14.5-15.5% of polyesteramide and 0.5-4.5% of conductive fiber according to the mass percent, wherein the sum of the mass percent of the combed cotton and the polyesteramide is 100%, firstly preparing the combed cotton and the polyesteramide into cotton/nylon blended yarns, and doubling and twisting the conductive yarns and a proper amount of the cotton/nylon blended yarns into conductive yarns;

Step 2, yarn dyeing

Adjusting the pH value of the water bath to 8-10, weighing an indigo dye, dissolving the indigo dye in water, uniformly stirring to obtain a dye solution with the concentration of 20-80 g/L, dyeing the remaining cotton/instrumental polyamide fiber blended yarn in the step 1 to obtain a dyed yarn, wherein the mass ratio of the remaining cotton/instrumental polyamide fiber blended yarn to the conductive yarn in the step 1 is 75-85: 1;

Step 3, weaving the colored cloth

Taking the conductive yarns obtained in the step 1 and the colored yarns obtained in the step 2 as raw materials for weaving the fabric, taking the colored yarns as warp yarns and weft yarns to weave grey cloth, and weaving the conductive yarns in the warp direction and the weft direction at intervals respectively in the weaving process to obtain the antistatic colored cloth;

Step 4, washing with water

Removing the sizing agent generated by the cloth cover in the weaving process in the step 3, rinsing to wash out the cloth cover style, finally washing with cold water, and drying to obtain the cotton-nylon blended fabric of the antistatic moisture-absorption sweat-discharge jean.

6. The method for preparing the cotton-nylon blended fabric of the antistatic moisture-absorption sweat-discharge jean according to claim 5, wherein the twist of the conductive yarn in the step 1 is 25-50 twists/10 cm.

7. The method for preparing the cotton-nylon blended fabric of the antistatic moisture-absorption sweat-discharge jean as claimed in claim 5, wherein the dyeing speed in the step 2 is 20m/min, and the dyeing temperature is 22-28 ℃.

8. The method for preparing the cotton-nylon blended fabric of the antistatic moisture-absorbing and sweat-removing jeans according to claim 5, wherein in the step 3, the distance between two adjacent conductive yarns in the warp direction is 0.5-2 cm, and the distance between two adjacent conductive yarns in the weft direction is 0.5-2 cm.

9. The method for preparing the cotton-nylon blended fabric of the antistatic moisture-absorbing and sweat-draining jean as claimed in claim 5, wherein the water temperature in the rinsing in the step 4 is 40-45 ℃.