CN112501915A

CN112501915A - Preparation method of fabric capable of enhancing cool feeling

Info

Publication number: CN112501915A
Application number: CN202011225628.3A
Authority: CN
Inventors: 康翼鸿; 喻学锋; 黄湛; 贾宝泉
Original assignee: Wuhan Zhongke Advanced Technology Research Institute Co ltd
Current assignee: Wuhan Zhongke Advanced Technology Research Institute Co ltd
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-03-16
Anticipated expiration: 2040-11-05
Also published as: CN112501915B

Abstract

The invention discloses a preparation method of a cool feeling enhancing fabric, which comprises the steps of firstly carrying out dipping finishing on synthetic fiber knitted fabric by using a moisture absorption and sweat discharge composite finishing agent blended by a moisture absorption and sweat discharge agent and high-heat-conductivity short fibers to prepare a moisture absorption and quick-drying fabric; and carrying out single-side silk-screen printing finishing on the moisture-absorbing quick-drying fabric by using mixed mucilage of the cool microcapsules and the phase-change microcapsules to obtain the fabric with enhanced cool feeling. The cool feeling enhancing fabric prepared by the invention can achieve the effect of remarkably enhancing the cool feeling by endowing the fabric with functions of instant cool feeling, continuous cool feeling, moisture absorption, quick drying and the like, brings comfortable experience to human bodies, and can be used for sports wear, protective clothing, home textiles and the like.

Description

Preparation method of fabric capable of enhancing cool feeling

Technical Field

The invention belongs to the field of textile processing, and particularly relates to a preparation method of a cool feeling enhancing fabric.

Background

Along with the development of social economy and the change of life style, people put forward higher and higher requirements on the comfort of fabrics, particularly the heat and humidity comfort, wherein cool fabrics are widely concerned because the cool fabrics can bring cool experience to human bodies in hot summer. At present, the method for preparing the cool fabric on the market mainly comprises cool fiber and cool after-finishing. The former mainly obtains instant cool feeling by adding mineral materials such as mica stone and the like in the spinning process to improve the thermal conductivity of the fiber, but the effect of continuous cool feeling is difficult to realize, and the spinning method has higher cost; the traditional after-finishing is mainly to prepare a cool feeling finishing agent by using factors which absorb heat and retain moisture when meeting water, such as xylitol, erythritol, menthone, silk fibroin and the like, and finish the cool feeling on the fabric, but the fabric is easy to lose effectiveness when washed by water, and the volatility of partial substances greatly shortens the use time efficiency and influences the wearing experience of a human body, so that the fabric which can bring cool experience to the human body for a long time is urgently needed. In the prior art, the slow-release microcapsule greatly prolongs the duration time of the cool feeling effect because the slow-release microcapsule slowly releases the cool feeling factors and can be effectively combined with clothes, and on the other hand, the slow-release microcapsule absorbs heat in cooperation with the phase transformation of the phase-change microcapsule, so that the instant cool feeling and the continuous cool feeling effect of a human body can be effectively increased.

In the actual use process, the single cool finishing is not enough to relieve the sticky feeling and the skin-sticking uncomfortable feeling of the fabric caused by high-humidity weather or a large amount of sweating. In order to improve the situation, people usually prepare the moisture-absorbing and sweat-releasing fabric by increasing the evaporation area and increasing the water guide channel, so that the human body can quickly drain the moisture of the fabric in a high-humidity environment or under a large amount of sweat-releasing conditions, and the cooling and comfortable feeling of the human body can be improved. Patent CN201911408050.2 discloses a method for preparing a knitted fabric combining moisture absorption, sweat releasing and cool feeling, which can increase water guide channels by designing a fabric weave structure while finishing cool feeling, thereby enhancing the cool feeling effect. However, the research on enhancing the cool feeling effect by utilizing moisture absorption and sweat releasing is rare at present, and the development is lagged. At present, a lot of cool fabrics in the market only have instant contact cool performance, but do not have a lasting cool effect; the effect of cool feeling is insufficient due to single action mode or limited loading amount; because sweat and heat generated by the human body cannot be taken away in time, the sticky dampness and sultry discomfort caused by the sweat and heat cannot be relieved.

Therefore, the cool feeling enhancing fabric is developed and applied to sportswear, casual clothes, protective clothing, hats and socks and the like, has a long-time efficient cool feeling effect, and can enhance the cool feeling effect in a synergistic manner by enhancing the loss of moisture, so that the cool feeling enhancing fabric has important significance for enhancing the cool experience and the overheat protection of a human body in severe environments.

Disclosure of Invention

The invention aims to provide a novel cool fabric which can achieve the effect of remarkably enhancing cool feeling by endowing the fabric with functions of instant cool feeling, continuous cool feeling, moisture absorption, quick drying and the like, and brings comfortable experience to human bodies.

In order to achieve the purpose, the invention adopts the technical scheme that:

a preparation method of fabric for enhancing cool feeling specifically comprises the following steps:

firstly, carrying out dipping finishing on synthetic fiber knitted fabric by using a moisture absorption and sweat discharge composite finishing agent blended by a moisture absorption and sweat discharge agent and high-heat-conductivity short fibers to prepare a moisture absorption and quick drying fabric; and carrying out single-side silk-screen printing finishing on the moisture-absorbing quick-drying fabric by using mixed mucilage of the cool microcapsules and the phase-change microcapsules to obtain the fabric with enhanced cool feeling.

The preparation method of the moisture-absorbing and quick-drying fabric comprises the following steps: (1) mixing the high-heat-conductivity short fibers, the adhesive A, the moisture absorption and sweat discharge agent and water, and stirring at a low speed until the fibers are uniformly dispersed to obtain the moisture absorption and sweat discharge composite finishing agent; (2) soaking a synthetic fiber knitted fabric in the moisture-absorbing and sweat-releasing composite finishing agent for 5-60 min, taking out, baking in a blast oven at 100-180 ℃ for 1-30 min, and drying the fabric at 60-120 ℃;

preferably, the stirring speed is 300-1800 rpm; soaking the fabric in the moisture-absorbing and sweat-releasing composite finishing agent for 5-50 min, taking out the fabric, placing the fabric in a blast oven at 100-150 ℃ for baking for 2-20 min, and then drying the fabric at 70-100 ℃.

The synthetic fiber knitted fabric is nylon, terylene, modal or spandex and blended knitted fabric thereof.

The moisture absorption and sweat releasing composite finishing agent comprises the following components in 100 parts by mass: 1-25 parts of moisture absorption quick-drying agent, 0.1-10 parts of high-heat-conductivity short fiber, 0.1-10 parts of adhesive and the balance of water.

The hygroscopic quick-drying agent is any one or a mixture of two of Goon886, JV-908, German nanometer X23, Rudoufu FERAN ICE, RUCO-PUR SEC, 3M SCOTCHGARD and FC-226 hygroscopic sweat-discharging agent.

The high-heat-conductivity short fibers are carbon fibers;

the adhesive A is any one or mixture of two of waterborne polyurethane, waterborne acrylate and organic silicon.

The preparation method of the fabric for enhancing the cool feeling comprises the following steps: (1) mixing a certain amount of cool microcapsules, phase-change microcapsules, a cross-linking agent, an adhesive B, a thickening agent and water according to a certain proportion, and stirring for 0.5h at normal temperature to prepare uniformly dispersed mixed mucilage; (2) and printing the prepared mixed mucilage on the prepared moisture-absorbing and quick-drying fabric by adopting a screen printing method, and drying for 1-60 min at 90-130 ℃. Preferably, the mixture is dried for 6-40 min at the temperature of 95-130 ℃.

The mixed mucilage comprises the following components in 100 parts in total by mass: 1-20 parts of cool microcapsules, 1-20 parts of phase change microcapsules, 5-50 parts of a cross-linking agent, 1-20 parts of an adhesive, 0.1-5 parts of a thickening agent and the balance of water.

The microcapsule is a slow release microcapsule, and the core material is one or two of menthone, menthol, xylitol, eucalyptol and silk fibroin.

The phase-change microcapsule is any one or mixture of alkane and polyalcohol.

The cross-linking agent is any one or mixture of polyurethane and polyacrylate.

The adhesive B is any one or mixture of two of waterborne polyurethane, waterborne acrylate and organic silicon.

The thickening agent is an acrylic acid copolymer.

The invention can be used for sports wear, protective clothing, home textiles and the like, and has the functions of cool touch, continuous cooling, moisture absorption and quick drying. Compared with the prior art, the invention has the beneficial effects that:

firstly, the effect time of the cool fabric is prolonged by cooperating with the phase change heat absorption of the phase change microcapsule and the slow release effect of the cool microcapsule;

in performance, the addition of the high-heat-conductivity short fibers enables the heat conduction effect of the cool fabric to be better, and the effect of enhancing the instant cool feeling is achieved; meanwhile, the continuous net-shaped structure constructed by the high-heat-conductivity short fibers on the surface of the fabric increases the specific surface area of the fabric and is also the area of water evaporation, and on the other hand, as shown in figure 1, a multi-scale pore structure from a small-pore-high-heat-conductivity fiber layer to a large-pore-fabric substrate layer in the thickness direction can form a driving process of water from the high-heat-conductivity fiber layer to the fabric substrate layer, namely, a wicking action is realized, sweat and heat are timely discharged, and the cool feeling of the composite fabric is promoted structurally.

Drawings

Fig. 1 is a structural model of the cool feeling enhancing fabric prepared in example 1.

Detailed Description

For a better understanding of the present invention, the following further illustrates the present invention with reference to specific examples and drawings, but the present invention is not limited to the following examples.

Example 1

Dissolving 10 g of high-thermal-conductivity short fiber, 5g of waterborne polyurethane and 10 g of moisture absorption and sweat releasing agent in 475g of water, increasing the rotating speed to 300 r/min, and uniformly stirring; according to the bath ratio of 1: 20 weighing nylon fabric, soaking in the dispersion for 15min, taking out, baking in a forced air oven at 100 ℃ for 15min, and drying the fabric at 80 ℃; mixing cool microcapsule 20 g, phase change microcapsule 18 g, cross-linking agent 6 g, water-soluble polyacrylate mucilage 3g, thickener 1g and water, stirring for 30min to mix uniformlyHomogenizing; performing silk-screen printing coating finishing on the fabric by using a silk-screen printing machine, controlling the angle of a scraper at 60 degrees, and printing for 1 time; taking off the fabric, and drying at 100 ℃ for 15min to obtain the fabric with enhanced cool feeling. Through tests, the instant contact cool feeling performance of the cool feeling enhancing fabric is 0.32, the wicking height is 118mm, and the moisture permeability is 12000 g/(m)²D), contact wetting time 0.3s, drip spreading time 2.1s, water evaporation rate 0.28 g/h.

Example 2

Dissolving 35 g of high-thermal-conductivity short fiber, 5g of water-based polyacrylate and 10 g of moisture absorption and perspiration agent in 500g of water, increasing the rotating speed to 600 revolutions per minute, and uniformly stirring; according to the bath ratio of 1: 10 weighing a polyester fabric, soaking the polyester fabric in the dispersion for 30min, taking out the polyester fabric, baking the polyester fabric in a 130 ℃ blast oven for 10min, and drying the polyester fabric at 85 ℃; mixing 15 g of cool microcapsules, 14 g of phase change microcapsules, 5.8 g of cross-linking agent, 3g of aqueous polyurethane mucilage, 0.5 g of thickening agent and water, and stirring for 40min until the mixture is uniformly mixed; performing silk-screen printing coating finishing on the fabric by using a silk-screen printing machine, controlling the angle of a scraper at 80 degrees, and printing for 2 times; and taking down the fabric, and drying for 30min at 95 ℃ to obtain the fabric with enhanced cool feeling. Through tests, the instant contact cool feeling performance of the cool feeling enhancing fabric is 0.36, the wicking height is 121mm, and the moisture permeability is 12500 g/(m)²D), contact wetting time 0.6s, drip spreading time 1.8s, water evaporation rate 0.31 g/h.

Example 3

Dissolving 8g of high-thermal-conductivity short fiber, 10 g of kh550 organic silicon adhesive and 10 g of moisture absorption and sweat releasing agent in 500g of water, increasing the rotating speed to 900 revolutions per minute, and uniformly stirring; according to the bath ratio of 1: 40, weighing a modal fabric, soaking the modal fabric in the dispersion for 20min, taking out the modal fabric, baking the modal fabric in a blowing oven at 140 ℃ for 4min, and then drying the modal fabric at 70 ℃; mixing 20 g of cool microcapsules, 13 g of phase change microcapsules, 12 g of cross-linking agent, 4g of aqueous polyacrylate mucilage, 0.9 g of thickening agent and water, and stirring for 15min until the mixture is uniformly mixed; performing silk-screen printing coating finishing on the fabric by using a silk screen printer, controlling the angle of a scraper to be 90 degrees, and printing for 1 time; taking down the fabric, and drying at 105 ℃ for 20min to obtain the fabric with enhanced cool feeling. Tested and enhancedThe instant contact cool feeling performance of the cool feeling fabric is 0.33, the wicking height is 130mm, and the moisture permeability is 13000 g/(m)²D), contact wetting time 0.9s, drip spreading time 1.2s, water evaporation rate 0.33 g/h.

Example 4

Dissolving 19 g of high-thermal-conductivity short fiber, 12 g of kh560 organic silicon adhesive and 10 g of moisture absorption and sweat releasing agent in 500g of water, increasing the rotating speed to 1200 revolutions per minute, and uniformly stirring; according to the bath ratio of 1: weighing spandex fabric, soaking the spandex fabric in the dispersion liquid for 50min, taking out the spandex fabric, baking the spandex fabric in a blowing oven at 145 ℃ for 8min, and drying the spandex fabric at 77 ℃; mixing 17 g of cool microcapsules, 18 g of phase change microcapsules, 11 g of cross-linking agent, 5g of aqueous polyacrylate mucilage, 1g of thickening agent and water, and stirring for 30min until the mixture is uniformly mixed; performing silk-screen printing coating finishing on the fabric by using a silk-screen printing machine, controlling the angle of a scraper at 50 degrees, and printing for 2 times; and taking down the fabric, and drying at 115 ℃ for 40min to obtain the fabric with enhanced cool feeling. Through tests, the instant contact cool feeling performance of the cool feeling enhancing fabric is 0.28, the wicking height is 135mm, and the moisture permeability is 12900 g/(m)²D), contact wetting time 1.1s, drip spreading time 1.3s, water evaporation rate 0.38 g/h.

Example 5

Dissolving 12 g of high-thermal-conductivity short fiber, 28g of waterborne polyurethane adhesive and 10 g of moisture absorption and sweat releasing agent in 475g of water, increasing the rotating speed to 1800rpm, and uniformly stirring; according to the bath ratio of 1: 14 weighing nylon fabric, soaking the nylon fabric in the dispersion for 42min, taking out the nylon fabric, baking the nylon fabric in a 150 ℃ forced air oven for 2min, and drying the nylon fabric at 80 ℃; mixing 19 g of cool microcapsules, 10 g of phase change microcapsules, 18 g of cross-linking agent, 19 g of aqueous polyurethane mucilage, 2 g of thickening agent and water, and stirring for 30min until the mixture is uniformly mixed; performing silk-screen printing coating finishing on the fabric by using a silk-screen printing machine, controlling the angle of a scraper at 60 degrees, and printing for 1 time; and taking down the fabric, and drying for 6min at 130 ℃ to obtain the fabric with enhanced cool feeling. Tests show that the instant contact cool feeling performance of the cool feeling enhancing fabric is 0.29, the wicking height is 125mm, and the moisture permeability is 12500 g/(m)²D), contact wetting time 1.0s, drip spreading time 1.5s, water evaporation rate 0.33 g/h.

Example 6

Dissolving 10 g of high-thermal-conductivity short fiber, 25 g of waterborne polyurethane adhesive and 10 g of moisture absorption and sweat releasing agent in 475g of water, increasing the rotating speed to 1100 r/min, and uniformly stirring; according to the bath ratio of 1: 21, weighing a modal fabric, soaking the modal fabric in the dispersion for 48min, taking out the modal fabric, baking the modal fabric in a blast oven at 132 ℃ for 8min, and drying the modal fabric at 80 ℃; mixing 12 g of cool microcapsules, 15 g of phase change microcapsules, 11 g of cross-linking agent, 11 g of aqueous polyacrylate mucilage, 0.5 g of thickening agent and water, and stirring for 10min until the mixture is uniformly mixed; performing silk-screen printing coating finishing on the fabric by using a silk-screen printing machine, controlling the angle of a scraper at 65 degrees, and printing for 2 times; and taking down the fabric, and drying for 30min at 122 ℃ to obtain the fabric with enhanced cool feeling. Tests show that the instant contact cool feeling performance of the cool feeling enhancing fabric is 0.30, the wicking height is 124mm, and the moisture permeability is 12600 g/(m)²D), contact wetting time 0.8s, drip spreading time 1.1s, water evaporation rate 0.34 g/h.

Claims

1. A preparation method of fabric for enhancing cool feeling is characterized by comprising the following steps: firstly, carrying out dipping finishing on synthetic fiber knitted fabric by using a moisture absorption and sweat discharge composite finishing agent blended by a moisture absorption and sweat discharge agent and high-heat-conductivity short fibers to prepare a moisture absorption and quick drying fabric; and carrying out single-side silk-screen printing finishing on the moisture-absorbing quick-drying fabric by using mixed mucilage of the cool microcapsules and the phase-change microcapsules to obtain the fabric with enhanced cool feeling.

2. The preparation method of the cool feeling enhancing fabric as claimed in claim 1, wherein the preparation method comprises the following steps: the preparation method of the moisture-absorbing quick-drying fabric comprises the following steps:

1) mixing high-thermal-conductivity short fibers, an adhesive A, a moisture absorption and perspiration agent and water, and stirring for 15-100 min at a stirring speed of 300-3000 rpm until the mixture is uniformly dispersed to obtain a moisture absorption and perspiration agent composite finishing agent;

2) soaking a synthetic fiber knitted fabric in the moisture absorption and sweat releasing composite finishing agent obtained in the step 1) for 5-60 min, taking out the fabric, baking the fabric in a blast oven at 100-180 ℃ for 1-30 min, and drying the fabric at 60-120 ℃;

3. The preparation method of the cool feeling enhancing fabric as claimed in claim 1, wherein the preparation method comprises the following steps: the preparation method of the cool feeling enhancing fabric comprises the following steps:

1) mixing a certain amount of cool microcapsules, phase-change microcapsules, a cross-linking agent, an adhesive B, a thickening agent and water, and stirring for 10-60 min at normal temperature to prepare uniformly dispersed mixed mucilage;

2) and printing the prepared mixed mucilage on the prepared moisture-absorbing and quick-drying fabric by adopting a screen printing method, and drying for 1-60 min at 90-130 ℃.

4. The preparation method of the cool feeling enhancing fabric as claimed in claim 2, wherein the preparation method comprises the following steps: the moisture absorption and sweat releasing composite finishing agent comprises the following components in parts by mass, wherein the total part is 100 parts: 1-25 parts of moisture absorption quick-drying agent, 0.1-10 parts of high-heat-conductivity short fiber, 0.1-10 parts of adhesive and the balance of water.

5. The preparation method of the cool feeling enhancing fabric as claimed in claim 2, wherein the preparation method comprises the following steps: the hygroscopic quick-drying agent is any one or a mixture of two of Goon886, JV-908, German nanometer X23, Rudoufu FERAN ICE, RUCO-PUR SEC, 3M SCOTCHGARD and FC-226 hygroscopic sweat-discharging agent.

6. The preparation method of the cool feeling enhancing fabric as claimed in claim 2, wherein the preparation method comprises the following steps: the high-heat-conductivity short fibers are carbon fibers; the adhesive A is any one or mixture of two of waterborne polyurethane, waterborne polyacrylate and organic silicon.

7. The preparation method of the cool feeling enhancing fabric as claimed in claim 3, wherein the steps of: the mixed mucilage is calculated by the mass parts, and the total amount is 100 parts, and the mixed mucilage comprises the following components: 1-20 parts of cool microcapsules, 1-20 parts of phase change microcapsules, 5-50 parts of a cross-linking agent, 1-20 parts of an adhesive, 0.1-5 parts of a thickening agent and the balance of water.

8. The preparation method of the cool feeling enhancing fabric as claimed in claim 3, wherein the steps of: the cool feeling microcapsule is a slow release microcapsule, and the core material is one or a mixture of two of menthone, menthol, xylitol, eucalyptol and silk fibroin; the phase-change microcapsule is any one or mixture of alkane and polyalcohol.

9. The preparation method of the cool feeling enhancing fabric as claimed in claim 3, wherein the steps of: the cross-linking agent is any one or mixture of polyurethane and polyacrylate.

10. The preparation method of the cool feeling enhancing fabric as claimed in claim 3, wherein the steps of: the adhesive B is any one or mixture of two of waterborne polyurethane, waterborne polyacrylate and organic silicon; the thickening agent is acrylic acid copolymer.