CN111636191A - Tencel fiber and silver ion composite fiber fabric and manufacturing method thereof - Google Patents

Abstract

The invention discloses a tencel fiber and silver ion composite fiber fabric and a manufacturing method thereof, wherein the composite fiber fabric is formed by mixing and spinning tencel fibers and polyester yarns, wherein the volume percentage of the two fibers is 30 percent of the tencel fibers: 70% of polyester yarn. The fabric can inhibit the odor generated by the growth of microorganisms, and absorb some common body odor of human bodies, so that the odor of the fabric is kept fresh, the growth of various gram-negative bacteria, gram-positive bacteria and fungi can be effectively controlled, the defects of low strength and especially low wet strength of common viscose fibers are overcome, the fabric has silky hand feeling and elegant luster, has good hygroscopicity of the viscose fibers, has excellent moisture absorption speed and capacity, can effectively reduce the growth of bacteria, and is good in elegant drapability and smooth to touch.

Description

Tencel fiber and silver ion composite fiber fabric and manufacturing method thereof

Technical Field

The invention relates to the technical field of fabrics, in particular to a tencel fiber and silver ion composite fiber fabric and a manufacturing method thereof.

Background

Fabric is the material used to make clothing. As one of the three elements of the garment, the fabric not only can explain the style and the characteristics of the garment, but also directly controls the expression effects of the color and the shape of the garment.

Lyocell fiber is commonly called as 'velvet' and tencel fiber, natural plant fiber is used as a raw material, the lyocell fiber has various excellent performances of natural fiber and synthetic fiber, lyocell is green fiber, the raw material is inexhaustible cellulose in nature, no chemical reaction is generated in the production process, and the used solvent is non-toxic. The lyocell fiber is a brand-new fabric for textile and clothing, has the characteristics of comfort, good hand feeling, easy dyeing and the like of natural fiber cotton, and also has the environmental protection advantage which is not possessed by the traditional viscose fiber. The lyocell fiber takes pulp formed by smashing reproducible bamboo, wood and the like as raw materials, the solvent recovery rate is up to 99.7% by an advanced process, and the lyocell fiber is energy-saving, environment-friendly and sustainable in development. The clothing made of the fiber has natural luster, smooth hand feeling, high strength, basically no shrinkage, good moisture permeability and air permeability, and good fabric effect of wool blended spinning.

Polyester yarn is commonly called as 'polyester'. The PET fiber is a synthetic fiber obtained by spinning polyester formed by polycondensation of organic dibasic acid and dihydric alcohol, is called PET fiber for short, and belongs to a high molecular compound. Is the first major variety of current synthetic fibers. The polyester yarn has the advantages of good crease resistance and shape retention, high strength and high elastic recovery capability. It is firm and durable, anti-wrinkle, non-ironing and non-sticking.

After the existing fabric supports clothes to be worn, bacteria are easy to breed in the fabric of the clothes, so that the clothes generate peculiar smell, and meanwhile, the peculiar smell is easy to generate after people sweat, so that the clothes generate peculiar smell, and uncomfortable wearing experience is brought to a wearer.

Disclosure of Invention

The invention aims to provide a tencel fiber and silver ion composite fiber fabric and a manufacturing method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the composite fiber fabric is formed by mixing and spinning tencel fibers and polyester yarns, wherein the volume percentage of the two fibers is 30 percent of the tencel fibers: 70% of polyester yarn.

The manufacturing method of the tencel fiber and silver ion composite fiber fabric comprises the following steps:

s1: twisting one or more strands of tencel fibers to form warp threads, and twisting one or more strands of polyester yarns to form weft threads;

s2: weaving the warps and the wefts in the S1 into a textile fabric through blending, and finishing the textile fabric;

s3: carrying out silver ion treatment on the textile fabric in the S2 to obtain a silver ion fiber fabric, wherein the silver ion content on the surface of the silver ion fiber fabric is 15-50 ppm;

s4: cleaning the silver ion fiber fabric in the step S3, and then neutralizing;

s5: adding clear water required by the suction and leaching equipment into an independent dilution container, slowly adding the antibacterial agent into the water, continuously stirring at room temperature until the solution reaches a final appropriate concentration based on the weight of the fabric to be treated, continuously adding the clear water, continuously stirring until the volume of the solution reaches 100% of that of the working solution, and adding the diluted antibacterial agent solution into the main suction and leaching equipment;

s6: slowly adding a buffer solution into the antibacterial agent solution obtained in the step S5, adjusting the pH value of the solution, and then heating the solution;

s7: adding the silver ion fiber fabric obtained in the step S3 into a suction soaking device, and carrying out suction soaking for a certain time;

s8: and (4) taking out the silver ion fiber fabric soaked in the S7, then sending the fabric into a dryer, controlling the temperature of the dryer, and drying for a certain time.

As further preferable in the present technical solution: the pH value of the neutralized fabric in the S4 is 6.5-7.5.

As further preferable in the present technical solution: the content of water required by the suction and immersion equipment added in the S5 is 75-85%, and the addition amount of the antibacterial agent is 1.5-5% of the mass of the fabric.

As further preferable in the present technical solution: the buffer solution in the S6 is one of acetic acid-sodium acetate buffer solution, acetic acid-ammonium acetate buffer solution and phosphate buffer solution.

As further preferable in the present technical solution: the pH value after adjustment in the S6 is 4.5-6.5, and the temperature rise temperature is 70-80 ℃.

As further preferable in the present technical solution: the mass ratio of the added mass of the silver ion fiber fabric in the S7 to the mass of the liquid absorption and immersion liquid is 9.5-10: 1.

As further preferable in the present technical solution: and the soaking time in the S7 is 15-30 minutes.

As further preferable in the present technical solution: the drying temperature in the S8 is 160-180 ℃, and the drying time is 40-60 minutes.

Compared with the prior art, the invention has the beneficial effects that: the fabric can inhibit the odor generated by the growth of microorganisms, and absorb some common body odor of human bodies, so that the odor of the fabric is kept fresh, the growth of various gram-negative bacteria, gram-positive bacteria and fungi can be effectively controlled, the defects of low strength and especially low wet strength of common viscose fibers are overcome, the fabric has silky hand feeling and elegant luster, has good hygroscopicity of the viscose fibers, has excellent moisture absorption speed and capacity, can effectively reduce the growth of bacteria, and is good in elegant drapability and smooth to touch.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

the invention provides a technical scheme that: the tencel fiber and silver ion composite fiber fabric is formed by mixing and spinning tencel fibers and polyester yarns, wherein the volume percentage of the two fibers is 30 percent of the tencel fibers: 70% of polyester yarn.

The manufacturing method of the tencel fiber and silver ion composite fiber fabric comprises the following steps:

s1: twisting a strand of tencel fiber to form a warp, and twisting two strands of polyester yarn to form a weft;

s2: weaving the warps and the wefts in the S1 into a textile fabric through blending, and finishing the textile fabric;

s3: carrying out silver ion treatment on the textile fabric in the S2 to obtain a silver ion fiber fabric, wherein the silver ion content on the surface of the silver ion fiber fabric is 30 ppm;

s4: cleaning the silver ion fiber fabric in the step S3, and then neutralizing to keep the pH value at 6.5;

s5: adding clear water with the water amount of 75% required by the suction and immersion equipment into an independent dilution container, slowly adding an antibacterial agent into the water, wherein the mass of the antibacterial agent is 3% of the mass of the fabric, continuously stirring at room temperature until the solution reaches the final appropriate concentration based on the weight of the fabric to be treated, continuously adding the clear water and continuously stirring until the volume of the solution reaches 100% of the volume of the working solution, and adding the diluted antibacterial agent solution into the main suction and immersion equipment;

s6: slowly adding a buffer solution into the antibacterial agent solution obtained in the step S5, adjusting the pH value of the solution to 4.5, and then heating the solution to 70 ℃;

s7: adding the silver ion fiber fabric obtained in the step S3 into a suction soaking device, and carrying out vacuum drying according to a recommended liquid/fabric ratio of 9.5: 1, continuously sucking and soaking for 20 minutes;

s8: and (4) taking out the silver ion fiber fabric soaked in the S7, and then sending the fabric into a dryer, wherein the temperature of the dryer is controlled at 160 ℃, and the drying time is 50 minutes.

Example two:

the manufacturing method of the tencel fiber and silver ion composite fiber fabric comprises the following steps:

s1: twisting a strand of tencel fiber to form warp, and twisting a strand of polyester yarn to form weft;

s2: weaving the warps and the wefts in the S1 into a textile fabric through blending, and finishing the textile fabric;

s3: carrying out silver ion treatment on the textile fabric in the S2 to obtain a silver ion fiber fabric, wherein the silver ion content on the surface of the silver ion fiber fabric is 40 ppm;

s4: cleaning the silver ion fiber fabric in the step S3, and then neutralizing to keep the PH at 7;

s5: adding clear water with the water amount of 80% required by the suction and immersion equipment into an independent dilution container, slowly adding an antibacterial agent into the water, wherein the mass of the antibacterial agent is 2.8% of the mass of the fabric, continuously stirring at room temperature until the solution reaches the final appropriate concentration based on the weight of the fabric to be treated, continuously adding the clear water and continuously stirring until the volume of the solution reaches 100% of the volume of the working solution, and adding the diluted antibacterial agent solution into the main suction and immersion equipment;

s6: slowly adding a buffer solution into the antibacterial agent solution obtained in the step S5, adjusting the pH value of the solution to 5.0, and then heating the solution to 75 ℃;

s7: adding the silver ion fiber fabric obtained in the step S3 into a suction soaking device, and carrying out vacuum drying according to a recommended liquid/fabric ratio of 9.6: 1, continuously sucking and soaking for 18 minutes;

s8: and (4) taking out the silver ion fiber fabric soaked in the S7, and then sending the fabric into a dryer, wherein the temperature of the dryer is controlled at 170 ℃, and the drying time is 55 minutes.

Example three:

the manufacturing method of the tencel fiber and silver ion composite fiber fabric comprises the following steps:

s1: twisting one strand of tencel fiber to form warp and twisting three strands of polyester yarn to form weft;

s2: weaving the warps and the wefts in the S1 into a textile fabric through blending, and finishing the textile fabric;

s3: carrying out silver ion treatment on the textile fabric in the S2 to obtain a silver ion fiber fabric, wherein the silver ion content on the surface of the silver ion fiber fabric is 30 ppm;

s4: cleaning the silver ion fiber fabric in the step S3, and then neutralizing to keep the pH at 6.8;

s5: adding clear water with the water amount of 80% required by the suction and immersion equipment into an independent dilution container, slowly adding an antibacterial agent into the water, wherein the mass of the antibacterial agent is 4% of that of the fabric, continuously stirring at room temperature until the solution reaches the final appropriate concentration based on the weight of the fabric to be treated, continuously adding the clear water and continuously stirring until the volume of the solution reaches 100% of that of the working solution, and adding the diluted antibacterial agent solution into the main suction and immersion equipment;

s6: slowly adding a buffer solution into the antibacterial agent solution obtained in the step S5, adjusting the pH value of the solution to 4.5, and then heating the solution to 75 ℃;

s7: adding the silver ion fiber fabric obtained in the step S3 into a suction soaking device, and carrying out vacuum drying according to a recommended liquid/fabric ratio of 9.8: 1, continuously sucking and soaking for 25 minutes;

s8: and (4) taking out the silver ion fiber fabric soaked in the S7, and then sending the fabric into a dryer, wherein the temperature of the dryer is controlled at 165 ℃, and the drying time is 40 minutes.

Example four:

the manufacturing method of the tencel fiber and silver ion composite fiber fabric comprises the following steps:

s1: two strands of tencel fibers are twisted to form warps, and three strands of polyester yarns are twisted to form wefts;

s2: weaving the warps and the wefts in the S1 into a textile fabric through blending, and finishing the textile fabric;

s3: carrying out silver ion treatment on the textile fabric in the S2 to obtain a silver ion fiber fabric, wherein the silver ion content on the surface of the silver ion fiber fabric is 35 ppm;

s4: cleaning the silver ion fiber fabric in the step S3, and then neutralizing to keep the pH at 6.8;

s5: adding clear water with the water amount of 80% required by the suction and immersion equipment into an independent dilution container, slowly adding an antibacterial agent into the water, wherein the mass of the antibacterial agent is 4% of that of the fabric, continuously stirring at room temperature until the solution reaches the final appropriate concentration based on the weight of the fabric to be treated, continuously adding the clear water and continuously stirring until the volume of the solution reaches 100% of that of the working solution, and adding the diluted antibacterial agent solution into the main suction and immersion equipment;

s6: slowly adding a buffer solution into the antibacterial agent solution obtained in the step S5, adjusting the pH value of the solution to 5, and then heating the solution to 73 ℃;

s7: adding the silver ion fiber fabric obtained in the step S3 into a suction soaking device, and carrying out vacuum drying according to a recommended liquid/fabric ratio of 9.8: 1, continuously sucking and soaking for 18 minutes;

s8: and (4) taking out the silver ion fiber fabric soaked in the S7, and then sending the fabric into a dryer, wherein the temperature of the dryer is controlled at 180 ℃, and the drying time is 40 minutes.

Example five:

the manufacturing method of the tencel fiber and silver ion composite fiber fabric comprises the following steps:

s1: twisting two strands of tencel fibers to form warps, and twisting three strands of polyester yarns to form wefts;

s2: weaving the warps and the wefts in the S1 into a textile fabric through blending, and finishing the textile fabric;

s3: carrying out silver ion treatment on the textile fabric in the S2 to obtain a silver ion fiber fabric, wherein the silver ion content on the surface of the silver ion fiber fabric is 40 ppm;

s4: cleaning the silver ion fiber fabric in the S3, and then neutralizing to keep the PH at 7.2;

s5: adding clear water with the water amount of 80% required by the suction and immersion equipment into an independent dilution container, slowly adding an antibacterial agent into the water, wherein the mass of the antibacterial agent is 3.8% of the mass of the fabric, continuously stirring at room temperature until the solution reaches the final appropriate concentration based on the weight of the fabric to be treated, continuously adding the clear water and continuously stirring until the volume of the solution reaches 100% of the volume of the working solution, and adding the diluted antibacterial agent solution into the main suction and immersion equipment;

s6: slowly adding a buffer solution into the antibacterial agent solution obtained in the step S5, adjusting the pH value of the solution to 5.0, and then heating the solution to 76 ℃;

s7: adding the silver ion fiber fabric obtained in the step S3 into a suction soaking device, and adding the silver ion fiber fabric into the suction soaking device according to a recommended liquid/fabric ratio of 10:1, continuously sucking and soaking for 27 minutes;

s8: and (4) taking out the silver ion fiber fabric soaked in the S7, and then sending the fabric into a dryer, wherein the temperature of the dryer is controlled at 170 ℃, and the drying time is 45 minutes.

Example six:

the manufacturing method of the tencel fiber and silver ion composite fiber fabric comprises the following steps:

s1: twisting a strand of tencel fiber to form a warp, and twisting two strands of polyester yarn to form a weft;

s2: weaving the warps and the wefts in the S1 into a textile fabric through blending, and finishing the textile fabric;

s3: carrying out silver ion treatment on the textile fabric in the S2 to obtain a silver ion fiber fabric, wherein the silver ion content on the surface of the silver ion fiber fabric is 20 ppm;

s4: cleaning the silver ion fiber fabric in the step S3, and then neutralizing to keep the pH at 6.9;

s5: adding clear water with the water amount of 80% required by the suction and immersion equipment into an independent dilution container, slowly adding an antibacterial agent into the water, wherein the mass of the antibacterial agent is 3.5% of the mass of the fabric, continuously stirring at room temperature until the solution reaches the final appropriate concentration based on the weight of the fabric to be treated, continuously adding the clear water and continuously stirring until the volume of the solution reaches 100% of the volume of the working solution, and adding the diluted antibacterial agent solution into the main suction and immersion equipment;

s6: slowly adding a buffer solution into the antibacterial agent solution obtained in the step S5, adjusting the pH value of the solution to 5.6, and then heating the solution to 76 ℃;

s7: adding the silver ion fiber fabric obtained in the step S3 into a suction soaking device, and carrying out vacuum drying according to a recommended liquid/fabric ratio of 9.6: 1, continuously sucking and soaking for 25 minutes;

s8: and (4) taking out the silver ion fiber fabric absorbed and soaked in the step (S7), and then sending the fabric into a dryer, wherein the temperature of the dryer is controlled at 171 ℃, and the drying time is 46 minutes.

Example seven:

the manufacturing method of the tencel fiber and silver ion composite fiber fabric comprises the following steps:

s1: twisting a strand of tencel fiber to form a warp, and twisting two strands of polyester yarn to form a weft;

s2: weaving the warps and the wefts in the S1 into a textile fabric through blending, and finishing the textile fabric;

s3: carrying out silver ion treatment on the textile fabric in the S2 to obtain a silver ion fiber fabric, wherein the silver ion content on the surface of the silver ion fiber fabric is 30 ppm;

s4: cleaning the silver ion fiber fabric in the step S3, and then neutralizing to keep the pH at 6.7;

s5: adding clear water with the water amount of 80% required by the suction and immersion equipment into an independent dilution container, slowly adding an antibacterial agent into the water, wherein the mass of the antibacterial agent is 3.2% of the mass of the fabric, continuously stirring at room temperature until the solution reaches the final appropriate concentration based on the weight of the fabric to be treated, continuously adding the clear water and continuously stirring until the volume of the solution reaches 100% of the volume of the working solution, and adding the diluted antibacterial agent solution into the main suction and immersion equipment;

s6: slowly adding a buffer solution into the antibacterial agent solution obtained in the step S5, adjusting the pH value of the solution to 5.1, and then heating the solution to 70 ℃;

s7: adding the silver ion fiber fabric obtained in the step S3 into a suction soaking device, and carrying out vacuum drying according to a recommended liquid/fabric ratio of 9.7: 1, continuously sucking and soaking for 27 minutes;

s8: and (4) taking out the silver ion fiber fabric soaked in the S7, and then sending the fabric into a dryer, wherein the temperature of the dryer is controlled at 176 ℃, and the drying time is 55 minutes.

Working principle or structure principle, during the use, through carrying out silver ion with the surface fabric and handling messenger's surface fabric bacterinertness and obtain very big improvement, this surface fabric can restrain the smell that produces because of microorganism growth simultaneously, absorb some common human body tastes simultaneously to keep the fabric smell fresh, can effectively control the growth of multiple gram negative bacteria and gram positive bacteria and fungi, overcome the defect that ordinary viscose fibre is strong low, especially wet strength is low, have real silky feeling and elegant gloss, have the good hygroscopicity of viscose fibre, possess excellent moisture absorption speed and capacity, can effectively reduce bacterial growth, the surface fabric elegant drapability is good simultaneously, it is smooth to touch.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. Tencel fiber and silver ion composite fiber fabric, its characterized in that: the composite fiber fabric is formed by mixing and spinning tencel fibers and polyester yarns, wherein the volume percentage of the tencel fibers to the two fibers is 30 percent: 70% of polyester yarn.

2. A method for manufacturing a tencel fiber and silver ion composite fiber fabric according to claim 1, wherein the method comprises the following steps: the manufacturing method of the fabric comprises the following steps:

s1: twisting one or more strands of tencel fibers to form warp threads, and twisting one or more strands of polyester yarns to form weft threads;

s2: weaving the warps and the wefts in the S1 into a textile fabric through blending, and finishing the textile fabric;

s3: carrying out silver ion treatment on the textile fabric in the S2 to obtain a silver ion fiber fabric, wherein the silver ion content on the surface of the silver ion fiber fabric is 15-50 ppm;

s4: cleaning the silver ion fiber fabric in the step S3, and then neutralizing;

s5: adding clear water required by the suction and leaching equipment into an independent dilution container, slowly adding the antibacterial agent into the water, continuously stirring at room temperature until the solution reaches a final appropriate concentration based on the weight of the fabric to be treated, continuously adding the clear water, continuously stirring until the volume of the solution reaches 100% of that of the working solution, and adding the diluted antibacterial agent solution into the main suction and leaching equipment;

s6: slowly adding a buffer solution into the antibacterial agent solution obtained in the step S5, adjusting the pH value of the solution, and then heating the solution;

s7: adding the silver ion fiber fabric obtained in the step S3 into a suction soaking device, and carrying out suction soaking for a certain time;

s8: and (4) taking out the silver ion fiber fabric soaked in the S7, then sending the fabric into a dryer, controlling the temperature of the dryer, and drying for a certain time.

3. The manufacturing method of the tencel fiber and silver ion composite fiber fabric according to claim 2, characterized in that: the pH value of the neutralized fabric in the S4 is 6.5-7.5.

4. The manufacturing method of the tencel fiber and silver ion composite fiber fabric according to claim 2, characterized in that: the content of water required by the suction and immersion equipment added in the S5 is 75-85%, and the addition amount of the antibacterial agent is 1.5-5% of the mass of the fabric.

5. The manufacturing method of the tencel fiber and silver ion composite fiber fabric according to claim 2, characterized in that: the buffer solution in the S6 is one of acetic acid-sodium acetate buffer solution, acetic acid-ammonium acetate buffer solution and phosphate buffer solution.

6. The manufacturing method of the tencel fiber and silver ion composite fiber fabric according to claim 2, characterized in that: the pH value after adjustment in the S6 is 4.5-6.5, and the temperature rise temperature is 70-80 ℃.

7. The manufacturing method of the tencel fiber and silver ion composite fiber fabric according to claim 2, characterized in that: the mass ratio of the added mass of the silver ion fiber fabric in the S7 to the mass of the liquid absorption and immersion liquid is 9.5-10: 1.

8. The manufacturing method of the tencel fiber and silver ion composite fiber fabric according to claim 2, characterized in that: and the soaking time in the S7 is 15-30 minutes.

9. The manufacturing method of the tencel fiber and silver ion composite fiber fabric according to claim 2, characterized in that: the drying temperature in the S8 is 160-180 ℃, and the drying time is 40-60 minutes.