CN215976238U - Elastic wear-resistant woven fabric and garment - Google Patents

Abstract

The utility model provides an elastic wear-resistant woven fabric and a garment. The elastic wear-resistant woven fabric is formed by circularly weaving warp yarns and weft yarns; the yarns of at least one system of warp or weft yarns comprise kodora yarns; the yarns of at least one system of warp or weft yarns comprise elastic yarns. The fabric is woven according to a plain weave or twill weave structure with multiple interweaving points and short floating threads, and has the characteristics of excellent wear resistance, elasticity and sweat absorption and quick drying.

Description

Elastic wear-resistant woven fabric and garment

Technical Field

The utility model belongs to the technical field of textile garments, and particularly relates to an elastic wear-resistant woven fabric and a garment.

Background

Outdoor clothing fabric has extremely high requirements on the wear resistance of the fabric, and meanwhile, wearing comfort is very important, and currently, outdoor clothing fabric generally uses chemical fibers with good wear resistance, such as terylene, chinlon and the like. The woven fabric made of the fiber can only meet the general wear resistance requirement, cannot achieve the wear resistance effect of high strength and the requirement of special outdoor activities, and has the service life of normal clothes.

CN110804787A discloses a wear-resistant cloth and a weaving method thereof, which comprises a unit formed by interweaving warps and wefts, wherein the warps and the wefts are plied yarns, and the plied yarns are formed by plying lining yarns and covering yarns; the raw material of the covering yarn is cotton yarn, the raw material of the lining yarn is spandex, and although the elasticity of the fabric is improved through soft drying treatment, width expanding treatment and high-temperature setting treatment, the fabric can only meet the general wear-resisting requirement and cannot achieve the high-strength wear-resisting effect.

CN207241038U discloses wear-resisting denim, denim includes moisture absorption layer, cold-proof layer, anti-corrosion coating and antistatic backing, be equipped with warp and vertical filament on the denim, be equipped with the moisture absorption layer on the denim, be equipped with the cold-proof layer on the moisture absorption layer, be equipped with the anti-corrosion coating on the cold-proof layer, be equipped with the antistatic backing on the anti-corrosion coating, this wear-resisting denim, through the warp and the woof cyclic connection that add, can the improvement wearability of certain degree, however this surface fabric's elasticity is relatively poor, can't satisfy outdoor activities's demand, and the comfort level of dress is relatively poor.

Therefore, the wear-resistant fabric is really significant, and the wearing comfort is very necessary and has market prospect.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides an elastic wear-resistant woven fabric and a garment. The fabric has the characteristics of excellent wear resistance, elasticity and sweat absorption and quick drying.

In a first aspect, the utility model provides an elastic wear-resistant woven fabric, which is formed by circularly weaving warp yarns and weft yarns;

the yarns of at least one system of warp or weft yarns comprise kodora yarns;

the yarns of at least one system of warp or weft yarns comprise elastic yarns.

In the present invention, CORDURA (CORDURA) is a special nylon of the indovada company, and has the characteristics of high strength and high wear resistance. The elastic wear-resistant fabric is woven and formed by interweaving warp yarns and weft yarns which are perpendicular to each other on a weaving machine according to a certain rule. The warp yarns and the weft yarns can be respectively and independently arranged to use the Doudura yarns, namely, the warp yarns are independently used or the weft yarns are independently used or the warp yarns and the weft yarns are simultaneously used, so that the wear-resisting effect of different degrees is achieved.

In the utility model, the structure of the elastic wear-resistant woven fabric is a plain structure and/or a twill structure.

The plain weave and the twill weave are basic weave structures of woven fabrics, the plain weave is the simplest weave structure, the warp yarns and the weft yarns are interwoven once every other yarn, the interweaving among the yarns is the most frequent, the floating length lines are the shortest, the buckling is the most, and the structure is stiff and smooth, firm and good in wear resistance.

In the utility model, the structure of the elastic wear-resistant woven fabric is a plain weave structure, and the arrangement mode of the warp yarns on the weft yarns is one-over-one-under.

In the utility model, the structure of the elastic wear-resistant woven fabric is a twill structure, and the arrangement mode of the warp yarns on the weft yarns is any one of two-over-one-under, one-over-two-under, one-over-three-under, two-over-two-under or three-over-three-under.

Wherein, twill tissue is woven for a circulation by three piece at least warp and three woofs and forms, forms oblique or oblique line in the right side on the surface fabric, and cloth cover twill line' S definition degree and warp or woof twist to and twill line be provided with close relation, for making cloth cover line clear, when cloth cover line sets up to left twill, the twist to of warp sets up to Z twist to, and the twist to of woof sets up to S twist to. Preferably, the maximum floating length line 3 selected by the fabric weave structure is less than the maximum floating length line, if the floating length line is too long, the interweaving points in the fabric are few, and the strength and the wear resistance of the fabric are affected.

In the utility model, the Codura yarn is Codura filament yarn or Codura staple fiber yarn, and the elastic yarn is core-spun yarn or cladding yarn.

When the warp system is provided with elastic yarns, the elastic wear-resistant fabric has good elasticity in the longitudinal direction, when the weft system is provided with the elastic yarns, the elastic wear-resistant fabric has good elasticity in the transverse direction, and when the warp system and the weft system are simultaneously provided with the elastic yarns, the elastic wear-resistant fabric has elasticity in the longitudinal direction and the transverse direction.

The elastic yarns are polyurethane elastic yarns, polyether elastic yarns, polyolefin elastic yarns or elastic terylene, such as spandex, T400 and the like.

When the elastic polyester is used as the elastic yarn, the elastic wear-resistant fabric can be independently used as warp or weft. When spandex is used as the elastic yarn, it is combined with the warp and/or weft in the form of a core or cover yarn. The core-spun yarn is formed by taking spandex as a core and wrapping non-elastic short fibers outside a spinning machine. The covered yarn is divided into air covered yarn and mechanical covered yarn, wherein the air covered yarn is yarn formed by simultaneously drawing an outer covered fiber filament and a spandex filament, passing through a certain type of nozzle and performing regular jet-pressing by highly compressed air to form a rhythmic network point. The mechanical covering yarn is characterized in that the covering fiber filament is continuously rotated and wound on the spandex of the core yarn which is drafted at a constant speed, and a certain twist is added. Preferably, in order to ensure that the warp yarns have certain strength and are not easy to break in the weaving process, the warp yarns are clear in opening and beneficial to the penetration of weft yarns, and the warp yarns adopt mechanical covering yarns with certain twist.

Preferably, the warp yarn is a covering yarn of a codola yarn and a spandex filament, the weft yarn is a covering yarn or covering yarn of the codola yarn and the spandex filament, and the fabric has the elasticity in the longitudinal direction and the transverse direction while having the wear resistance.

Preferably, the warp yarn is a kodora yarn, the weft yarn is a covering or covering yarn of kodora yarn and spandex, and the fabric has elasticity in the transverse direction while having abrasion resistance.

Preferably, the warp yarn is a covering yarn of Doctoria yarn and spandex, the weft yarn is the Doctoria yarn, and the fabric has elasticity in the longitudinal direction while having wear resistance.

Preferably, the warp yarn is a Doctoria yarn, the weft yarn is a covering yarn or a covering yarn of nylon or terylene and spandex, and the fabric has wear resistance and elasticity in the transverse direction.

Preferably, the warp yarn is nylon or terylene, the weft yarn is covering yarn or cladding yarn of Doctoria yarn and spandex filament, and the fabric has wear resistance and elasticity in the transverse direction.

In the present invention, the density of the warp yarn is 300-.

In the utility model, the warp and weft yarn density refers to the number of the warp and weft yarns arranged in a unit length in the fabric, the higher the warp and weft yarn density is, the tighter the fabric structure is, the better the wear resistance is, preferably, in consideration of energy consumption in the weaving process, the density of the warp yarn is generally greater than that of the weft yarn.

In a second aspect, the present invention provides a garment comprising the elastic abrasion resistant woven fabric of the first aspect. The clothes are clothes such as tools, outdoor sports coats, mountaineering suits and the like.

Compared with the prior art, the utility model has the following beneficial effects:

(1) the elastic wear-resistant fabric comprises yarns of warp yarn and weft yarn, wherein at least one system of the yarns of the two systems is provided with the Doudula yarn, and at least one system of the yarns of the two systems is provided with the elastic yarn;

(2) the wear-resisting times of the elastic wear-resisting fabric are 5217 times to 8517 times.

Drawings

FIG. 1 is a plain weave structure of an elastic abrasion resistant woven fabric provided in example 1;

wherein, 1 is a mechanical covered yarn of the Doudu pull filament and the spandex filament, and 2 is an air covered yarn of the Doudu pull filament and the spandex filament.

Fig. 2 is a twill weave structure diagram of the elastic abrasion-resistant woven fabric provided in example 2;

wherein, 1 is a mechanical covered yarn of the Doudu pull filament and the spandex filament, and 2 is an air covered yarn of the Doudu pull filament and the spandex filament.

FIG. 3 is a schematic view of a mechanical covered yarn structure of Doudura pull filament and spandex;

wherein 4 is a Kodura filament and 5 is a spandex filament.

FIG. 4 is an air-covered yarn of a Doudura pull filament and a spandex filament;

wherein 4 is a Kodura filament and 5 is a spandex filament.

Fig. 5 is a structure diagram of a twill weave of the elastic wear-resistant woven fabric provided in example 4;

wherein, 1 is a mechanical covered yarn of the Doudu pull filament and the spandex filament, and 2 is an air covered yarn of the Doudu pull filament and the spandex filament.

FIG. 6 is a schematic structural view of a core spun yarn provided in example 5;

wherein 5 is spandex filament and 6 is kodora short fiber.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments. It should be understood by those skilled in the art that the examples are only for the understanding of the present invention and should not be construed as the specific limitations of the present invention.

Example 1

The embodiment provides an elastic wear-resistant woven fabric, which is woven by yarns of two systems of warp yarns and weft yarns according to a weaving method of a plain structure with one being on top of the other. The warp yarns are mechanical covered yarns of the Doudu-shaped pull filaments and the spandex filaments (the structure of the warp yarns is shown in figure 3), wherein the fineness of the Doudu-shaped pull filaments is 75D, and the fineness of the spandex filaments is 20D. The weft yarn is an air-covered yarn of a Du-la filament and a spandex filament (the structure of the air-covered yarn is shown in figure 4), wherein the fineness of the Du-la filament is 75D, and the fineness of the spandex is 20D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

Fig. 1 is a plain weave structure diagram of an elastic abrasion-resistant woven fabric provided in example 1, and as shown in fig. 1, the elastic abrasion-resistant woven fabric is woven by yarns of two systems of warp and weft in a plain weave structure of one over the other.

Example 2

The embodiment provides an elastic wear-resistant woven fabric, which is formed by weaving yarns of two systems of warp yarns and weft yarns according to a weaving method of two upper twill yarns, two lower twill yarns and two right twill yarns. The warp yarn is a mechanical covered yarn of a Doudu-shaped pull filament and a spandex filament (the structure of the mechanical covered yarn is shown in figure 3), wherein the fineness of the Doudu-shaped pull filament is 75D, the fineness of the spandex is 40D, and the twisting direction of the mechanical covered yarn is an S twisting direction. The weft yarn is an air-covered yarn of a Du-la filament and a spandex filament (the structure of the air-covered yarn is shown in figure 4), wherein the fineness of the Du-la filament is 75D, and the fineness of the spandex is 40D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

Fig. 2 is a twill weave structure diagram of the elastic wear-resistant woven fabric provided in embodiment 2, and as shown in fig. 2, the elastic wear-resistant woven fabric is woven by yarns of two systems of warp yarns and weft yarns according to a two-up, two-down, and two-right twill weaving method.

Fig. 3 is a schematic structural view of a mechanical covered yarn of kodu pull filament and spandex, which is shown in fig. 3, wherein 4 is kodu pull filament, 5 is spandex filament, and the covered fiber kodu pull filament continuously rotates and is wound on spandex of a core filament drafted at a constant speed to obtain the covered fiber.

Fig. 4 shows an air-covered yarn of a kodu pull filament and a spandex filament, which is shown in fig. 4, wherein 4 is the kodu pull filament, 5 is the spandex filament, the outer-covered fiber kodu pull filament and the spandex filament are simultaneously drafted, and the yarns form a rhythmic network point through a nozzle and regular jet-compression of high-compressed air.

Example 3

The embodiment provides an elastic wear-resistant woven fabric, which is formed by weaving yarns of two systems of warp yarns and weft yarns according to a weaving method of two upper twill yarns, two lower twill yarns and two left twill yarns. The warp yarn is a mechanical covered yarn of a Doudu-shaped pull filament and a spandex filament (the structure of the mechanical covered yarn is shown in figure 3), the twisting direction of the mechanical covered yarn is a Z twisting direction, the fineness of the Doudu-shaped pull filament is 75D, and the fineness of the spandex is 40D. The weft yarn is an air-covered yarn of a Du-la filament and a spandex filament (the structure of the air-covered yarn is shown in figure 4), wherein the fineness of the Du-la filament is 75D, and the fineness of the spandex is 40D. The density of the warp yarns is 550 pieces/10 cm, and the density of the weft yarns is 450 pieces/10 cm.

Fig. 3 is a schematic structural view of a mechanical covered yarn of kodu pull filament and spandex, which is shown in fig. 3, wherein 4 is kodu pull filament, 5 is spandex filament, and the covered fiber kodu pull filament continuously rotates and is wound on spandex of a core filament drafted at a constant speed to obtain the covered fiber.

Fig. 4 shows an air-covered yarn of a kodu pull filament and a spandex filament, which is shown in fig. 4, wherein 4 is the kodu pull filament, 5 is the spandex filament, the outer-covered fiber kodu pull filament and the spandex filament are simultaneously drafted, and the yarns form a rhythmic network point through a nozzle and regular jet-compression of high-compressed air.

Example 4

The present embodiment provides an elastic wear-resistant woven fabric, which is woven by using two systems of warp and weft yarns according to a twill weaving method (the weave diagram is shown in fig. 5). The warp yarn is a mechanical covered yarn of a Doudu-shaped pull filament and a spandex filament (the structure of the mechanical covered yarn is shown in figure 3), wherein the fineness of the Doudu-shaped pull filament is 75D, the fineness of the spandex is 40D, and the twisting direction of the mechanical covered yarn is Z twisting direction. The weft yarn is an air-covered yarn of a Du-la filament and a spandex filament (the structure of the air-covered yarn is shown in figure 4), wherein the fineness of the Du-la filament is 75D, and the fineness of the spandex is 40D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

Fig. 5 is a structure diagram of a twill weave of the elastic wear-resistant woven fabric provided in example 4; wherein, 1 is a mechanical covered yarn of the Doudu pull filament and the spandex filament, and 2 is an air covered yarn of the Doudu pull filament and the spandex filament.

Fig. 3 is a schematic structural view of a mechanical covered yarn of kodu pull filament and spandex, which is shown in fig. 3, wherein 4 is kodu pull filament, 5 is spandex filament, and the covered fiber kodu pull filament continuously rotates and is wound on spandex of a core filament drafted at a constant speed to obtain the covered fiber.

Fig. 4 shows an air-covered yarn of a kodu pull filament and a spandex filament, which is shown in fig. 4, wherein 4 is the kodu pull filament, 5 is the spandex filament, the outer-covered fiber kodu pull filament and the spandex filament are simultaneously drafted, and the yarns form a rhythmic network point through a nozzle and regular jet-compression of high-compressed air.

Example 5

The embodiment provides an elastic wear-resistant woven fabric, which is formed by weaving yarns of two systems of warp yarns and weft yarns according to a weaving method of two upper twill yarns, two lower twill yarns and two left twill yarns. The warp is a covering yarn (the structure is shown in fig. 6) of a Codura staple fiber yarn and spandex filament, wherein the fineness of the Codura staple fiber yarn is 32, the fineness of the spandex is 30D, and the twisting direction of the covering yarn is Z twisting. The weft yarn is a covering yarn of a Coula staple fiber yarn and spandex filament (the structure is shown in figure 6), wherein the fineness of the Coula staple fiber yarn is 32 yarns, and the fineness of the spandex is 30D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

FIG. 6 is a schematic structural view of a core spun yarn provided in example 5; as shown in fig. 6, the warp yarn is a covering yarn of a kodora staple fiber yarn and a spandex filament.

Example 6

The embodiment provides an elastic wear-resistant woven fabric, which is formed by weaving yarns of two systems of warp yarns and weft yarns according to a weaving method of two upper twill yarns, two lower twill yarns and two left twill yarns. The warp yarns are Coudura pull filaments, the fineness of the Coudura pull filaments is 75D, and the twisting direction of the warp yarns is Z twisting. The weft yarns are air-coated yarns of the Doudu pull filament yarns and the spandex filament yarns, wherein the fineness of the Doudu pull filament yarns is 75D, and the fineness of the spandex is 40D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

Example 7

The embodiment provides an elastic wear-resistant woven fabric, which is formed by weaving yarns of two systems of warp yarns and weft yarns according to a weaving method of two upper twill yarns, two lower twill yarns and two left twill yarns. The warp yarn is a mechanical covered yarn of a Doudu-shaped pull filament yarn and a spandex filament yarn, wherein the fineness of the Doudu-shaped pull filament yarn is 75D, the fineness of the spandex filament yarn is 40D, and the twisting direction of the mechanical covered yarn is Z twisting. The weft yarn is a Coudura pull filament, wherein the fineness of the Coudura pull filament is 75D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540/10 cm.

Example 8

The embodiment provides an elastic wear-resistant woven fabric, which is formed by weaving yarns of two systems of warp yarns and weft yarns according to a weaving method of two upper twill yarns, two lower twill yarns and two left twill yarns. The warp yarn is a mechanical covered yarn of nylon filament and spandex filament, wherein the fineness of the nylon filament is 75D, the fineness of the spandex is 40D, and the twisting direction of the mechanical covered yarn is Z twisting. The weft yarns are air-coated yarns of the Doudu pull filament yarns and the spandex filament yarns, wherein the fineness of the Doudu pull filament yarns is 75D, and the fineness of the spandex is 40D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

Example 9

The embodiment provides an elastic wear-resistant woven fabric, which is formed by weaving yarns of two systems of warp yarns and weft yarns according to a weaving method of two upper twill yarns, two lower twill yarns and two left twill yarns. The warp yarn is a mechanical covered yarn of a Doudu-shaped pull filament yarn and a spandex filament yarn, wherein the fineness of the Doudu-shaped pull filament yarn is 75D, the fineness of the spandex filament yarn is 40D, and the twisting direction of the mechanical covered yarn is Z twisting. The weft yarn is a mechanical covered yarn of polyester filament yarns and spandex filament yarns, wherein the fineness of the polyester filament yarns is 75D, and the fineness of the spandex is 40D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

Example 10

The embodiment provides an elastic wear-resistant woven fabric, which is formed by weaving yarns of two systems of warp yarns and weft yarns according to a weaving method of two upper twill yarns, two lower twill yarns and two left twill yarns. The warp yarns are Doudu pull filaments, wherein the fineness of the Doudu pull filaments is 75D. The weft yarn is an air-coated yarn of polyester and spandex filament, wherein the fineness of the polyester is 75D, and the fineness of the spandex is 20D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

Example 11

The embodiment provides an elastic wear-resistant woven fabric, which is formed by weaving yarns of two systems of warp yarns and weft yarns according to a weaving method of two upper twill yarns, two lower twill yarns and two left twill yarns. The warp yarns are terylene, wherein the fineness of the terylene is 75D. The weft yarns are air-coated yarns of the Doudu pull filament yarns and the spandex filament yarns, wherein the fineness of the Doudu pull filament yarns is 75D, and the fineness of the spandex is 40D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

Comparative example 1

This comparative example provides an elastic abrasion-resistant woven fabric woven by yarns of two systems of warp and weft in a plain weave structure of one over the other. The warp yarns are mechanical covered yarns of nylon filaments and spandex filaments, wherein the fineness of the nylon filaments is 75D, and the fineness of the spandex filaments is 20D. The weft yarn is an air-covered yarn of nylon filaments and spandex filaments, wherein the fineness of the nylon filaments is 75D, and the fineness of the spandex is 20D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

Comparative example 2

The comparative example provides an elastic wear-resistant woven fabric which is woven by yarns of two systems of warp yarns and weft yarns according to a weaving method of two upper, two lower and two right twill twills. The warp yarn is a mechanical covered yarn of polyester filament yarn and spandex filament yarn, wherein the fineness of the polyester filament yarn is 75D, the fineness of the spandex is 40D, and the twisting direction of the mechanical covered yarn is S twisting. The weft yarns are air-coated yarns of polyester filament yarns and spandex filament yarns, wherein the fineness of the polyester filament yarns is 75D, and the fineness of the spandex is 40D. The density of the warp yarns is 620 yarns/10 cm, and the density of the weft yarns is 540 yarns/10 cm.

Performance testing

The following tests were carried out on the fabrics provided in examples 1 to 11 and comparative examples 1 to 2 above:

the wear-resisting property of the fabric is as follows: the total friction times of the damaged sample are expressed, and the determination standard is mainly determined according to GB/T21196.2-2007 determination of the wear resistance of fabrics by the Martindall method;

the specific test results are shown in table 1:

TABLE 1

The test data in table 1 show that the total abrasion-resistant times of the elastic abrasion-resistant woven fabric are 5217 and 8517 times, and the examples 1, 2 and 3 show that the fabric structures are different, and the lengths of the floating long lines in the fabric structures have great influence on the abrasion resistance of the fabric.

From the comparison of examples 8, 9, 10, 11 with example 2, it can be seen that the abrasion resistance of the fabric containing the kadura yarn in only one system is significantly lower than that of the fabric containing the kadura yarn in both systems, but still above 5217.

As can be seen from the comparison of example 1 with comparative example 1 and example 2 with comparative example 2, the abrasion resistance of the facing material without the kadola yarn sharply decreased to 872 and below.

Therefore, the elastic wear-resistant fabric comprises yarns of two systems of warp yarns and weft yarns, wherein at least one system of the yarns of the two systems is provided with the Doudula yarns, and at least one system of the yarns of the two systems is provided with the elastic yarns, the fabric is woven according to a plain weave or twill structure with multiple interweaving points and short floating lines, and the fabric has the characteristics of excellent wear resistance, elasticity and sweat absorption and quick drying.

The applicant declares that the above description is only a specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and it should be understood by those skilled in the art that any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are within the scope and disclosure of the present invention.

Claims (9)

1. The elastic wear-resistant woven fabric is characterized by being formed by circularly weaving warp yarns and weft yarns;

the yarns of at least one system of warp or weft yarns comprise kodora yarns;

the yarns of at least one system of warp or weft yarns comprise elastic yarns.

2. The elastic abrasion-resistant woven fabric according to claim 1, wherein the structure of the elastic abrasion-resistant woven fabric is a plain structure and/or a twill structure.

3. The elastic abrasion-resistant woven fabric according to claim 2, wherein the structure of the elastic abrasion-resistant woven fabric is a plain weave structure, and the arrangement of the warp yarns on the weft yarns is one over the other.

4. The elastic abrasion-resistant woven fabric according to claim 2, wherein the structure of the elastic abrasion-resistant woven fabric is a twill structure, and the arrangement of the warp yarns on the weft yarns is any one of two-over-one-under, one-over-two-under, one-over-three-under, two-over-two-under or three-over-three-under.

5. An elastic abrasion-resistant woven fabric according to claim 1, wherein said kodora yarn is a kodora filament yarn or a kodora staple yarn.

6. The elastic abrasion-resistant woven fabric according to claim 1, wherein the elastic yarn is a core spun yarn or a covered yarn.

7. The elastic abrasion-resistant woven fabric according to claim 1, wherein the density of the warp yarns is 300-800 yarns/10 cm.

8. The elastic abrasion-resistant woven fabric according to claim 1, wherein the density of the weft yarns is 300-800/10 cm.

9. A garment comprising the elastic abrasion resistant woven fabric of any one of claims 1-8.

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