CN110629349A - Water-absorbing quick-drying woven fabric and application thereof - Google Patents

Water-absorbing quick-drying woven fabric and application thereof Download PDF

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Publication number
CN110629349A
CN110629349A CN201810660362.1A CN201810660362A CN110629349A CN 110629349 A CN110629349 A CN 110629349A CN 201810660362 A CN201810660362 A CN 201810660362A CN 110629349 A CN110629349 A CN 110629349A
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China
Prior art keywords
woven fabric
water
crimp
absorbing quick
drying
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CN201810660362.1A
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Inventor
徐建锋
蔡东照
庄燕
张葛成
洪晨阳
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Toray Fibers and Textiles Research Laboratories China Co Ltd
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Toray Fibers and Textiles Research Laboratories China Co Ltd
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Priority to CN201810660362.1A priority Critical patent/CN110629349A/en
Publication of CN110629349A publication Critical patent/CN110629349A/en
Pending legal-status Critical Current

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    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D11/00Double or multi-ply fabrics not otherwise provided for
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D13/00Woven fabrics characterised by the special disposition of the warp or weft threads, e.g. with curved weft threads, with discontinuous warp threads, with diagonal warp or weft
    • D03D13/008Woven fabrics characterised by the special disposition of the warp or weft threads, e.g. with curved weft threads, with discontinuous warp threads, with diagonal warp or weft characterised by weave density or surface weight
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D15/00Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D15/00Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
    • D03D15/40Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the structure of the yarns or threads
    • D03D15/44Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the structure of the yarns or threads with specific cross-section or surface shape
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D15/00Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
    • D03D15/40Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the structure of the yarns or threads
    • D03D15/47Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the structure of the yarns or threads multicomponent, e.g. blended yarns or threads
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2331/00Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
    • D10B2331/04Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyesters, e.g. polyethylene terephthalate [PET]

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Professional, Industrial, Or Sporting Protective Garments (AREA)
  • Woven Fabrics (AREA)
  • Details Of Garments (AREA)

Abstract

The invention discloses a water-absorbing quick-drying woven fabric. The woven fabric comprises a surface texture and an inner texture, yarns forming the inner texture contain high-crimp yarns with crimp number of 10-50/2.5 cm, and the coverage coefficient A of the inner texture and the coverage coefficient B of the surface texture meet the following relational expression: 0.1 ≦ A/B ≦ 0.8. The woven fabric has excellent water absorption and quick drying properties, and is suitable for preparing polo shirts, sportswear, T-shirts and the like.

Description

Water-absorbing quick-drying woven fabric and application thereof
Technical Field
The invention relates to a water-absorbing quick-drying fabric and application thereof, in particular to a water-absorbing quick-drying woven fabric and application thereof.
Background
In recent years, with the continuous improvement of living standard of people, the requirement of people on wearing comfort is also continuously improved. The wearing comfort is that the fabric has the effects of moisture absorption, dryness, ventilation, heat preservation and the like. In general, the body will only feel a significant amount of perspiration when engaged in strenuous exercise. In fact, even under normal environmental conditions, the human body needs to constantly 'invisibly evaporate' to release heat and water vapor generated by the metabolism of the human body, so as to maintain the body temperature constant.
At present, a lot of water-absorbing and quick-drying fabrics exist in the market, for example, chinese patent document CN103132207B discloses a moisture-absorbing and quick-drying ultraviolet-resistant fabric, which is woven by a dual-layer structure with special-shaped cross-section polyester yarn through holes, and the obtained fabric has excellent ultraviolet resistance, ventilation performance and moisture-absorbing and quick-drying performance, wherein the moisture-absorbing and quick-drying performance mainly utilizes the capillary effect generated by special-shaped cross-section polyester yarn with specific content to conduct sweat on the surface of skin to the surface, but because the back surface of the fabric is in surface-to-surface contact with the skin, the skin is easy to adhere after sweat absorption, the dryness is affected, and the inner layer can not conduct all the sweat to the surface in time, so that the skin is in an anaerobic environment, people feel very hot, and the.
For another example, chinese patent document CN205893536U discloses a moisture-absorbing quick-drying fabric, which comprises an inner layer and an outer layer, wherein the inner layer is made of thick yarns, the outer layer is made of thin yarns, the diameter of the thick yarns is larger than that of the inner yarns, a sweat-absorbing layer formed by polyester hollow yarns coated with polyamide on the surface is arranged on the surface of the inner layer, a hydrophilic layer formed by cotton yarns is covered on the outer layer, the polyester hollow yarns are provided with a plurality of wick points along the length direction thereof, and the moisture-conducting yarns penetrating through the inner layer and the outer layer and the innermost wick points combine wick effect and capillary effect, so that the sweat-releasing speed is increased; and the polyester hollow yarn coated with polyamide can improve comfort, but its washing durability is poor; in addition, because of the poor quick-drying performance of the cotton fibers, the sweat conducted from the inner layer cannot be completely discharged to the external environment, so that the sweat still stays in the fabric, and the problem of soft-wet feeling and the like cannot be fundamentally solved.
Therefore, the existing water-absorbing quick-drying fabric still has a lot of places which are not as beautiful as possible, and needs to be further improved.
Disclosure of Invention
The invention aims to provide a woven fabric which has excellent water absorption and quick drying performance and can keep the skin dry and smooth, and the woven fabric can be used for polo shirts, sportswear, T-shirts and the like.
The water-absorbing quick-drying woven fabric comprises a surface texture and a lining texture, yarns forming the lining texture contain high-crimp yarns with crimp number of 10-50/2.5 cm, and the lining texture coverage coefficient A and the surface texture coverage coefficient B meet the following relational expression: 0.1 ≦ A/B ≦ 0.8.
According to the invention, through reasonable texture design and combination of specific high-crimp yarns arranged in the inner texture, point contact between the fabric and the skin is realized, good dryness of the skin surface can be kept, and the wearing comfort is excellent.
Detailed Description
The fabric comprises a surface texture and an inner texture, and yarns connecting the surface texture and the inner texture form a sweat guide path. Wherein, the average float length of surface texture is preferred 1 ~ 5 tissue points, and when average float length was greater than 5 tissue points, the fluffing pilling phenomenon that the surface of the fabric probably appeared, and difficult formation absorbs water difference between surface texture of the fabric and the interior tissue moreover, and then influences the sweat and conduct the skin from the inlayer of fabric. The longer the average buoyancy length is, the stronger the capillary effect is, and the better the moisture conductivity is; the longer the average float length of the lining tissue is, the better the wicking effect in the fabric is, but considering that the longer the float length of the lining tissue is, the tendency of the pilling and silk hooking resistance is worsened, so the average float length of the lining tissue is preferably 3-8 tissue points. In order to improve the water absorption difference performance of the exterior and the interior, the ratio of the average float length of the interior structure to the average float length of the exterior structure is preferably 1.5-5, and more preferably 3-5.
The present invention is conceived to reduce the accumulation of sweat in the back weave by reducing the contact area between the back weave and the skin, and therefore is conceived to form the back weave by using at least a highly crimped yarn having a crimp number of 10 to 50 pieces/2.5 cm, and to reduce the density of the back weave.
In the present invention, the internal structure coverage coefficient A and the external structure coverage coefficient B satisfy the following relation, where A/B is 0.1 ≦ 0.8, preferably 0.1 ≦ A/B ≦ 0.5. When the ratio is less than 0.1, the ratio of yarns of the inner tissue is too small, the moisture-conducting performance is low, and sweat cannot be transmitted to the outer layer in time; when the ratio is more than 0.8, the contact area between the inner tissues and the skin is large, sweat can accumulate in the inner layer of the fabric, and the dry feeling is poor.
The high-crimp yarn is false-twist yarn processed by a hot plate or double-component side-by-side type composite fiber with latent crimp, and the form of the high-crimp yarn can be fully drawn yarn FDY or false-twist textured yarn DTY. Wherein the bicomponent side-by-side type composite fiber is PTT/PET, PBT/PET, high viscosity PET/low viscosity PET, and the like. If the number of curls is less than 10/2.5 cm, the contact area between the inner tissue and the skin cannot be reduced, and the adhesion feeling cannot be improved; when the number of crimps exceeds 50/2.5 cm, the yarn is excessively shrunk, which seriously affects the hand feeling of the fabric.
In the present invention, the high crimp yarn preferably has a crimp ratio of 5% to 30%. If the crimping rate is less than 5 percent, the problems that the yarn shrinkage is insufficient, the contact area of the fabric and the skin is still large, the adhesion feeling cannot be improved and the like can occur possibly; similarly, when the crimp ratio is more than 30%, there is a possibility that the shrinkage is excessive and the hand feeling is deteriorated.
In the present invention, the content of the high crimp yarn in the inner layer structure is preferably 50% by weight or more, and more preferably 100% by weight. If the content is less than 50% by weight, the contact area of the inner tissue with the skin increases, and sweat may be retained on the skin side, which may impair the dry feeling.
The smaller the number of the tissue points or the longer the tissue floats, the resistance to sweat conduction can be reduced, and the moisture-conducting performance can be improved. For density, the lower the warp density or weft density, the fewer the number of weft/warp interlaces, and the less the sweat is hindered in the conduction process, which is more beneficial to improve the moisture-wicking performance.
In the present invention, the density of the inner structure and the density of the outer structure preferably satisfy the following relationship: a/b is less than or equal to 0.5, and the contact area of the reverse side of the fabric and the skin is most suitable.
In the present invention, it is preferable that the density c of weft in the inner weave and the density d of weft in the outer weave satisfy the following relationship: c/d is less than or equal to 0.5, and the contact area between the reverse side of the fabric and the skin can be further reduced.
In order to further improve the sweat on the lining fabric to be conducted to the surface layer and the external environment to the maximum extent, the warp of the water-absorbing quick-drying woven fabric of the invention preferably contains over 50 wt% of profiled cross-section yarn. The profiled cross-section yarn may be profiled cross-section fibers such as trilobal, quadralobal, and flat fibers, or may be a mixture of the profiled cross-section fibers and round cross-section fibers. Specifically, the degree of profile of the profiled fiber is preferably 1.5 or more.
Considering that the inner tissue contacts the skin, the thinner the fineness of the single yarn, the more the number of the fibers, and the greater the possibility of sweat accumulation, the inner tissue preferably contains 50 wt% or more of coarse denier fibers having a fineness of 0.6 to 5.0 denier (D) in the present invention. If the filament number of the heavy denier fiber is less than 0.6D, sweat is more likely to accumulate among the fibers and cannot be discharged quickly, and the water absorption and quick drying performance can be influenced; when the denier per filament of the large denier fiber is more than 5D, the hand tends to be lowered.
In the invention, the gram weight of the woven fabric is preferably 50-200 g/m2. When the weave is weft-backed or warp-backed, the gram weight of the fabric is 50-150 g/m2. When the weave is a double-layer weave, the gram weight of the fabric is 80-200 g/m2. In addition, the gram weight of the fabric is selected according to target seasons, such as: 50-130 g/m in summer2The target is 100-200 g/m in spring and autumn2Is the target.
The larger the water retention ratio between the outside and the inside is, and the smaller the water retention ratio between the inside and the outside is, the better the quick drying property of the fabric is. Even if a large amount of sweat is generated in summer, the sweat can be quickly transmitted to the outer layer and the external environment, and the skin surface can be kept dry and comfortable all the time, so that the wearing comfort is kept. In the present invention, the woven fabric preferably has a water retention ratio of 5.0 or more on the front and back sides and a water retention ratio of 10% or less on the back side. More preferably, the woven fabric has a water retention ratio of the front surface to the back surface of 8.0 or more and a water retention ratio of the back surface of 8% or less.
In the present invention, the water absorption diffusion time of the woven fabric is preferably 3 seconds or less, preferably 1 second or less, and the moisture remaining rate in 60 minutes is 30% or less.
The water-absorbing quick-drying woven fabric is suitable for manufacturing polo shirts, sportswear, T-shirts and the like.
The present invention will be further described with reference to examples and comparative examples. The characteristics in the examples were measured and determined in the following manner.
(1) Number of crimps and crimp rate
Reference is made to GBT 14338-.
(2) Coefficient of coverage
Coverage factor = warp surface coverage factor + weft surface coverage factor
Warp direction surface coverage factor = warp yarn fineness: (fiber count)1/2The density of the warp direction is,
weft surface coverage factor = weft fineness: (weft yarn width)1/2The density of the weft direction(s),
warp (weft) fineness unit: denier
Density unit of warp direction (weft direction): root/inch.
(3) Degree of abnormal shape
Refer to FZT 50002-.
(4) Ratio of water retention in the inside to water retention in the outside and inside
3 pieces of 10cm by 10cm sample cloth are taken, 6 pieces of filter paper with the same size are taken, and 1 piece of organic glass with the same size is taken. Weighing organic glass (W) at 20 deg.C and 65% humidity0) And weight of sample cloth (W)1) (three decimal places are reserved);
measuring 2 ml of distilled water with a syringe, placing on organic glass, rapidly placing the sample cloth on water, standing for 1 min, and weighing the weight (W) of the sample cloth after water absorption2) (three decimal places are reserved);
the weight of the plexiglass and the remaining distilled water after the test were weighed (W)3) (three decimal places are reserved);
weigh the two pieces of filter paper before absorbing water (w 1, w 3) (three decimal places are reserved);
placing the sample cloth after absorbing water between the two pieces of filter paper, placing a 500g weight on the sample cloth, and directly measuring the weights (w 2, w 4) of the surface filter paper and the inner filter paper after placing for 1 minute (three decimal places are reserved);
the exterior-interior water retention ratio (one digit after the decimal point is retained) is calculated by the following formula,
surface water retention (%) = (W2-W1)/(W)2-W1)×100
Inner water retention (%) = (W4-W3)/(W)2-W1)×100
Exterior-interior water retention ratio = surface water retention (%)/interior water retention (%)
WO: weight (g) of organic glass before water absorption
W1: weight (g) of sample cloth before Water absorption
W2: weight (g) of sample cloth after absorbing water
W3: weight (g) of organic glass and residual distilled water after water absorption
w 1: weight (g) of surface filter paper before Water absorption
w 2: weight (g) of surface Filter paper after Water absorption
w 3: weight (g) of the filter paper inside before water absorption
w 4: weight (g) of the filter paper inside after water absorption.
(5) Water absorption diffusion time
Reference is made to the evaluation of the moisture absorption quick drying property of the textile in GB/T21655.1-2008.
(6) Residual water content rate in 60 minutes
Reference is made to the keken method.
Example 1
The warp yarns are made of 50D-48 f-round section common PET DTY, the surface weft yarns are made of 84D-96 f-round section common PET DTY and 75D-48 f-round section common PET DTY, the lining weft yarns are made of 75D-48 f-round section high-crimp PBT/PET DTY (crimp number is 35/2.5 cm, crimp rate is 19%), and double weft tissues are woven, wherein the average float length of the surface tissues is 2.67 tissue points, and the average float length of the lining tissues is 4 tissue points, so that the fabric disclosed by the invention is obtained, and the details are shown in Table 1. Can be used for manufacturing polo shirts.
Example 2
The fabric is prepared by weaving 50D-48 f-round section common PET DTY for surface warp, 75D-48 f-cross section high-crimp PET DTY (profile degree of 2.5, crimp number of 35/2.5 cm and crimp rate of 19%) for inner warp and 75D-96 f-round section common PET DTY for weft through double tissues, wherein the average superficial length of the surface tissue is 1.0 tissue points, and the average superficial length of the inner tissue is 3.5 tissue points, and the fabric is obtained and detailed in Table 1. Can be used for making sports wear.
Example 3
The fabric of the invention was obtained in the same manner as in example 2 except that 75D-48 f-cross section high-crimp PET DTY (degree of profile 2.5, crimp number 35/2.5 cm, crimp rate 4.5%) was selected, and details are shown in table 1. Can be used for making sports wear.
Example 4
The fabric of the invention was obtained in the same manner as in example 2 except that 75D-48 f-cross section high-crimp PET DTY (degree of profile 2.5, crimp number 35/2.5 cm, crimp rate 6%) was selected, and details are shown in table 1. Can be used for making sports wear.
Example 5
The warp yarns are selected from 50D-48 f-round section PET DTY and 75D-48 f-round/cross section DTY (profile tolerance 1.6), and the fabric is obtained in the same way as in example 1, and the details are shown in Table 1. Can be used for manufacturing polo shirts or T-shirts.
Example 6
The warp yarns are made of 50D-48 f-cross section common PET DTY (profile tolerance is 2.5), the surface wefts are made of 50D-48 f-round section common PET DTY and 50D-36 f-round section high-crimp PET DTY (crimp number is 11/2.5 cm, crimp rate is 6%), the inner wefts are made of the 50D-36 f-round section high-crimp PET DTY, and a weft double-layer structure is adopted for weaving, wherein the average float length of the surface structure is 1.5 tissue points, and the average float length of the inner structure is 4 tissue points, so that the fabric disclosed by the invention is obtained, and the details are shown in Table 1. Can be used for making sports wear.
Example 7
The fabric of the invention was obtained with 30D-36 f-round cross section high crimp PET DTY as in example 6, for details shown in Table 1. Can be used for making sports wear.
Example 8
The fabric is prepared by weaving a double-layer tissue by selecting 50D-48 f-trilobal section common PET DTY (profile degree of 1.6) for the surface warp, 50D-24 f-peanut section high-crimp PTT/PET FDY (profile degree of 2.1, crimp number of 20/2.5 cm and crimp rate of 14%), selecting 50D-48 f-circular section common PET DTY and the high-crimp PTT/PET FDY for the surface weft and selecting the high-crimp PTT/PET FDY for the inner weft, wherein the average floating length of the surface tissue is 1.5 tissue points, and the average floating length of the inner tissue is 3 tissue points, and the fabric is detailed in Table 1. Can be used for manufacturing T-shirts.
Example 9
The surface warp is 40D-34 f-round/cross section nylon FDY (profile degree 3.0) and the 40D-34 f-round section highly crimped nylon DTY (crimp number is 18/2.5 cm, crimp rate is 12%), the inner warp is the highly crimped nylon DTY, the weft is the highly crimped nylon DTY, and the rest is the same as the example 2 to obtain the fabric disclosed by the invention, which is detailed in the table 1. Can be used for manufacturing T-shirts.
Example 10
The inner warp is 20D-34 f-round and has a section higher than that of the crimped nylon DTY (the number of crimps is 18/2.5 cm, the crimping rate is 12%), and the fabric is obtained in the same way as in example 9, and the details are shown in Table 1. Can be used for manufacturing T-shirts.
Example 11
The warp yarns are 150D-48 f-round/cross section common PET DTY (profile degree 1.6), the surface wefts are round/cross section common PET DTY and 150D-32 f-peanut type section high-crimp PTT/PET FDY (profile degree 2.0, crimp number 49/2.5 cm, crimp rate 29%), the inner wefts are high-crimp PTT/PET FDY, and the rest is the same as the example 1, so that the fabric disclosed by the invention is obtained, and the detailed table 1 is shown. Can be used for making sports wear.
Comparative example 1
The fabric is obtained by selecting 75D-48 f-round cross section high-crimp PBT/PET DTY (crimp number 9/2.5 cm, crimp rate 3%) for the weft and the rest of the process is the same as the example 1, and the details are shown in Table 1. Can be used for manufacturing polo shirts.
Comparative example 2
The fabric is obtained by selecting 50D-48 f-round section common PET DTY for the surface warp and 150D-48 f-cross section high-crimp PET DTY (the profile degree is 2.5, the crimp number is 35/2.5 cm, the crimp rate is 19%) for the inner warp in the same way as in example 2, and the details are shown in Table 1. Can be used for making sports wear.
TABLE 1
According to the above table,
(1) as is clear from example 5 compared with example 1, in the case of the fabric using 50% of the irregularly shaped cross-section yarns as the warp yarns, the former fabric has a high water retention rate on the front and back sides, a low water retention rate on the back side, a short water absorption diffusion time, and a low residual water content, that is, the former fabric has a superior water absorption quick-drying property to the latter fabric, as compared with the latter fabric using no irregularly shaped cross-section yarns as the warp yarns under the same conditions.
(2) As is clear from the comparison between example 6 and example 7, under the same conditions, the fabric having a ratio of the weft density c to the weft density d of 0.2 has a high water retention ratio between the front and back surfaces, a low water retention ratio between the back and front surfaces, a small water absorption diffusion time, and a low residual water content, that is, the water absorption quick-drying property of the former is superior to that of the latter, compared to the fabric having a ratio of the weft density c to the weft density d of 0.7.
(3) As is clear from example 9 and example 10, under the same conditions, the fabric having a ratio of the warp density a to the warp density b of 0.33 has a high water retention ratio between the front and back surfaces, a low water retention ratio between the back and front surfaces, a short water absorption diffusion time, and a low residual water content, that is, the fabric has a superior water absorption quick-drying property to the fabric having a ratio of the warp density a to the warp density b of 0.66.
(4) As is clear from comparison of comparative example 1 with example 1, under the same conditions, the fabric having a crimp number of 9/2.5 cm and a crimp rate of 3% for the weft is inferior to the fabric having a crimp number of 35/2.5 cm and a crimp rate of 19% for the weft in terms of the water retention ratio between the front and back surfaces, the water retention ratio between the back and the diffusion time, and the residual water content, i.e., the water absorption quick-drying property of the former is far inferior to that of the latter.
(5) As is clear from comparison of comparative example 2 with example 2, in the case of the same conditions, the fabric having a ratio of the cover factor a of the back weave to the cover factor B of the surface weave of 1.0 corresponds to the fabric having a ratio of the cover factor a of the back weave to the cover factor B of the surface weave of 0.4 in terms of the residual moisture content of both, but the former has a much lower water retention ratio of the front and back, a much higher water retention ratio of the back and front, and a much longer water absorption diffusion time, that is, the former has a much lower water absorption quick-drying property than the latter.

Claims (10)

1. A water-absorbing quick-drying woven fabric is characterized in that: the woven fabric comprises a surface texture and a back texture, yarns forming the back texture contain high-crimp yarns with crimp number of 10-50/2.5 cm, and the covering coefficient A of the back texture and the covering coefficient B of the surface texture meet the following relational expression:
0.1≦A/B≦0.8。
2. the water-absorbing quick-drying woven fabric as claimed in claim 1, which is characterized in that: the high crimp yarn has a crimp ratio of 5-30%.
3. The water-absorbing quick-drying woven fabric as claimed in claim 1, which is characterized in that: the warp density a of the inner weave and the warp density b of the outer weave satisfy the following relational expression: a/b ≦ 0.5.
4. The water-absorbing quick-drying woven fabric as claimed in claim 1, which is characterized in that: the weft density c of the inner weave and the weft density d of the outer weave satisfy the following relation: c/d ≦ 0.5.
5. The water-absorbing quick-drying woven fabric as claimed in claim 1, which is characterized in that: the warp of the water-absorbing quick-drying woven fabric contains yarns with special-shaped sections, and the content of the warp is more than 50% by weight.
6. The water-absorbing quick-drying woven fabric as claimed in claim 1, which is characterized in that: the inner structure contains more than 50 wt% of coarse denier fibers, and the filament number of the coarse denier fibers is 0.6-5.0 denier.
7. The water-absorbing quick-drying woven fabric as claimed in claims 1 to 6, which is characterized in that: the gram weight of the woven fabric is 50-200 g/m2
8. The water-absorbing quick-drying woven fabric according to any one of claims 1 to 6, which is characterized in that: the surface-interior water retention rate ratio of the woven fabric is more than 5.0, and the interior water retention rate is less than 10%.
9. The water-absorbing quick-drying woven fabric according to any one of claims 1 to 6, which is characterized in that: the water absorption and diffusion time of the woven fabric is within 3 seconds, and the moisture residual rate in 60 minutes is within 30 percent.
10. Polo shirts, sportswear or T-shirts made using the water-absorbing quick-drying woven fabric of claim 1.
CN201810660362.1A 2018-06-25 2018-06-25 Water-absorbing quick-drying woven fabric and application thereof Pending CN110629349A (en)

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Application publication date: 20191231