JP2006045731A - Deep-colorable pile fabric having soft hand and abrasion resistance and fiber product - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pile fabric which has soft hand, abrasion resistance and deep-colorability, and to provide a fiber product. <P>SOLUTION: This pile fiber fabric having a ground construction portion having a knitted or woven construction comprising polyester fiber yarns and a cut pile layer comprising polyester cut pile yarns knitted or woven in the ground construction portion is characterized in that the polyester cut pile yarns each has a flat cross section having two or more constricted portions and having a cross-sectional flatness ratio of 2 to 6, and has a single fiber fineness of ≤1.5 dtex. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a deep-colored raised fabric and a fiber product having a soft texture and abrasion resistance, in which cut pile fibers have a flat cross-sectional shape having a constricted portion and a specific single yarn fineness.

  Conventionally, a large amount of napped fabric is used for car seats, home interiors, office interiors, exhibition hall interiors, and clothing. In particular, in recent years, the properties required for such a raised fabric have been advanced, and various raised fabrics have been proposed.

  For example, Patent Document 1 proposes a napped fabric that has improved deep color by lowering the matting agent content of the pile yarn and keeping the fineness within a specific range. Further, Patent Document 2 and Patent Document 3 propose a napped fabric that has improved deep colorability by using a constricted flat section yarn as a pile fiber. However, although these raised fabrics are excellent in deep color, they are not satisfactory in terms of soft texture.

  On the other hand, as a fabric having a soft texture, it is known to form a fabric using ultrafine fibers (see, for example, Patent Document 4), but when ordinary ultrafine fibers are used as pile fibers, the area of the fiber surface is known. As a result of this increase, significant irregular reflection of light occurs, and there is a problem that the obtained dyed fabric has a whitish and deep color. Furthermore, since the single yarn fineness of the pile fiber is small, there is a problem that the single yarn is easily cut and the wear resistance is lowered.

  Thus, a deep-colored raised fabric having a soft texture and abrasion resistance has not been proposed so far, and the proposal has been desired.

JP 7-102445 A Japanese Utility Model Publication No. 7-40541 Japanese Patent Laid-Open No. 10-158953 JP-A-7-70871

  The present invention has been made in view of the above background, and an object of the present invention is to provide a napped fabric and a textile product having soft texture, wear resistance, and deep color.

  As a result of intensive studies to achieve the above-mentioned problems, the present inventor has found that a desired raised fabric can be obtained by using a constricted flat cross-sectional yarn having a specific single yarn fineness as a pile fiber. The present invention has been completed through repeated studies.

  Thus, according to the present invention, “having a ground tissue portion made of polyester fiber yarn and having a knitted fabric structure, and a cut pile layer made of a plurality of polyester cut pile fibers knitted into or woven into the ground tissue portion. A raised fabric, wherein the polyester cut pile fiber has a flat cross section with a cross-sectional flatness of 2 to 6 having two or more constricted portions, and the single yarn fineness is 1.5 dtex or less. A deep-colored raised fabric having a soft texture and abrasion resistance. "

  In that case, it is preferable that the single yarn fineness of a polyester cut pile fiber exists in the range of 0.6-1.4 dtex. Moreover, in the flat cross section of the polyester cut pile fiber, it is preferable that the ratio (C1 / C2) of the maximum value (C1) of the width to the minimum value (C2) is in the range of 1.05 to 4.00. The content of the matting agent contained in the polyester cut pile fiber is preferably less than 0.2% by weight based on the fiber weight. Such polyester cut pile fibers are preferably untwisted.

In the raised fabric of the present invention, it is preferable that the pile density of the polyester cut pile fiber is 5 × 10 ⁴ dtex / cm ² or more and the pile density cover factor is 2 × 10 ⁴ or more. Moreover, it is preferable that the standing fabric of this invention is dyed. Since the raised fabric of the present invention is excellent in soft texture, abrasion resistance and deep color, it can be suitably used as an automobile interior or interior textile product.

  According to the present invention, it is possible to obtain a napped fabric and a textile product having a soft texture, abrasion resistance, and deep color.

  The raised fabric of the present invention is composed of a ground fabric portion made of polyester fiber yarn and having a knitted fabric structure, and at least one cut pile layer. Then, as schematically shown in FIG. 4, the cut pile layer is woven or woven into the ground tissue portion, and from the polyester cut pile fiber extending from the ground tissue portion to at least one surface side thereof. Become.

  Here, in the polyester cut pile fiber, for example, as shown in FIG. 1, the cross-sectional shape of the single fiber (single filament) is the width in the direction perpendicular to the longitudinal center line with respect to the length. Has a relatively short shape, that is, a flat shape.

  In the cross section 1 shown in FIG. 1, three or more (four in FIG. 1) bulges per side that bulge outward from the longitudinal center line on both sides of the longitudinal center line; Two or more (three in FIG. 1) constricted portions per side formed between the bulging portions are formed symmetrically with respect to the longitudinal center line.

  At that time, the bulging portion formed on one side is positioned substantially symmetrically with the bulging portion formed on the other side, and the constricted portion formed on one side is It suffices if it is positioned substantially symmetrically with the constricted portion formed on the other side, and the shape of the bulged portion or constricted portion formed on both sides does not have to be completely symmetrical.

  In the single fiber cross-sectional shape of the polyester cut pile fiber, the number of constricted portions needs to be 2 or more (preferably 3 to 5), and if the number of constricted portions is 1 or less, Frictional resistance may increase and wear resistance may be impaired.

  Further, in such a single fiber cross-sectional shape, the cross-sectional flatness (B / C1) needs to be in the range of 2 to 6 (preferably 3 to 5), and if this cross-sectional flatness is less than 2, the single fiber The bending rigidity of the resin becomes high, and the desired soft texture cannot be obtained.

  In the single fiber cross-sectional shape of the polyester cut pile fiber, the ratio (C1 / C2) of the maximum width (C1) in the direction orthogonal to the longitudinal center line to the minimum value (C2) is 1.05 to 4.00. It is preferable to be within the range of (more preferably 1.10 to 2.50). The ratio (C1 / C2) is a parameter related to the depth of the constricted portion of the flat single fiber, and when the ratio (C1 / C2) is less than 1.05, that is, the depth of the constricted portion is shallow. In some cases, the frictional resistance of the pile fibers increases, and as a result, the wear resistance is impaired. On the other hand, if the ratio (C1 / C2) exceeds 4.00, the depth of the constricted part becomes excessive, the effect is saturated, and the yarn-making property becomes unstable, and cracks occur in the constricted part. Or inferior uniformity of the cross section of the single yarn.

  FIG. 2 and FIG. 3 show another example of the single fiber cross-sectional shape of the polyester cut pile fiber used in the raised fabric of the present invention.

  The cross-section of the single fiber shown in FIG. 2 has the same shape as the cross-section shown in FIG. 1 on both sides of the longitudinal center line, but the cross-sectional shape of the bulging portion is an elliptical long axis. It is gentle like a solitary shape, and the constriction is shallow.

  The cross-section of the single fiber shown in FIG. 3 has four bulging portions on one side and three constricted portions on both sides of the longitudinal center line. One of the bulging portions is the other. It is smaller in width and height than the bulging part.

  Next, the polyester cut pile fiber needs to have a single yarn fineness of 1.5 dtex or less (preferably 0.6 to 1.4 dtex). When the single yarn fineness is larger than 1.5 dtex, the soft texture is impaired, which is not preferable. On the contrary, if the single yarn fineness is smaller than 0.6 dtex, a soft texture can be obtained, but the single yarn fineness of the pile fiber is small, so that the single yarn is likely to break and wear resistance may be reduced.

Moreover, it is preferable that content of the matting agent contained in the said polyester cut pile fiber is less than 0.2 weight% with respect to fiber weight. If the content of the matting agent is 0.2% by weight or more, deep color may be impaired. The matting agent may be a normal one, and examples thereof include inorganic fine particles having a high refractive index such as TiO ₂ , SiO ₂ , and BaAO ₄ and having a particle size of about 0.1 to 1 μm. Of these, TiO ₂ (titanium oxide) is preferable.

  The polyester cut pile fiber is preferably untwisted. When the twist is applied, the bending rigidity of the single fiber becomes high, and a desired soft texture may not be obtained. Further, the polyester cut pile fiber may be crimped or may not be crimped. As a method for imparting crimps, a conventional false twist crimping process, an air jet crimping method, a compression crimping method, or the like can be used. In addition, when providing a crimp, it is preferable that it is 1% or more (more preferably 1-10%) as a crimp rate.

  The pile height of the polyester cut pile fiber is not particularly limited, but is preferably in the range of 0.5 to 1.5 mm. If the pile height is smaller than 0.5 mm, the soft texture may be impaired. On the other hand, if it is larger than 1.5 mm, the pile fiber may fall down.

The polyester cut pile fiber has a pile density of 5 × 10 ⁴ dtex / cm ² or more (more preferably 6 × 10 ^{4 to} 1.2 × 10 ⁵ dtex / cm ² ), and a pile density cover factor of 2 × 10 ⁴ or more (more preferably 6 × 10 ^{4 to} 2.5 × 10 ⁵ is preferable. The pile density and the pile density cover factor affect the deep color, and the higher the pile density, the deeper the color. However, if the pile density is higher than 1.2 × 10 ⁵ dtex / cm ² , the soft texture may be impaired, and if the pile density cover factor is less than 2 × 10 ⁴ , There is a risk of lodging.

The pile density may be obtained by directly counting the number of single fibers per 1 cm ² and multiplying the number by the single yarn fineness. For example, when the raised fabric of the present invention is a warp knitted fabric, cm) × the number of wales (lines / cm) × the total fineness (dtex) of the yarn for piles × 2. However, the total fineness is the single fiber fineness (dtex) of the yarn for piles × the number of single fibers in one yarn. In addition, the pile density cover factor may be obtained by directly counting the number of single fibers per 1 cm ² and multiplying this by the reciprocal of the square root of the single yarn fineness. For example, when the napped fabric of the present invention is a warp knitted fabric The number of courses (lines / cm) × the number of wales (lines / cm) × the reciprocal of the square root of the single fiber fineness (dtex) of the pile yarn × 1 the number of single fibers in the yarn × 2 may be calculated. However, the total fineness is the single fiber fineness (dtex) of the yarn for piles × the number of single fibers in one yarn.

  The polyester resin forming the polyester cut pile fiber may be a normal polyester produced from a dicarboxylic acid component and a diglycol component. As the dicarboxylic acid component, terephthalic acid is preferably used mainly, and as the diglycol component, it is preferable to use one or more alkylene glycols selected from ethylene glycol, trimethylene glycol and tetramethylene glycol. Moreover, the polyester resin may contain a third component in addition to the dicarboxylic acid component and the glycol component. As the third component, cationic dye dyeable anion components such as sodium sulfoisophthalic acid; dicarboxylic acids other than terephthalic acid such as isophthalic acid, naphthalenedicarboxylic acid, adipic acid, sebacic acid; and glycol compounds other than alkylene glycol, For example, one or more of diethylene glycol, polyethylene glycol, bisphenol A, and bisphenol sulfone can be used. If necessary, in addition to the matting agent, a fine pore forming agent (organic sulfonic acid metal salt), an anti-coloring agent, a heat stabilizer, a flame retardant (antimony trioxide), a fluorescent whitening agent, and coloring. You may contain 1 or more types of a pigment, an antistatic agent (sulfonic acid metal salt), a hygroscopic agent (polyoxyalkylene glycol), an antibacterial agent, and other inorganic particles.

  In the raised fabric of the present invention, the cut pile layer is preferably composed only of the polyester cut pile fiber, but if the cut pile layer is less than 30% by weight, other cut pile fibers are included. It doesn't matter if you do.

  In the raised fabric of the present invention, the ground texture portion has a knitted texture composed of polyester fiber yarns. The polyester resin that forms such a polyester fiber may be those described above, and the content of the matting agent is not particularly limited. Moreover, the single yarn fiber fineness and the total fineness of the polyester fiber yarn are preferably a single yarn fiber fineness of 0.5 to 5.0 dtex and a total fineness of 30 to 300 dtex without impairing the texture of the fabric. The cross-sectional shape of the single yarn fiber is not limited, and may be a triangular, flat, constricted flat, cross, hexagonal, or hollow cross-sectional shape in addition to a normal round cross-section. Furthermore, such polyester fiber yarns include false twisted crimped yarns, composite yarns obtained by subjecting two or more types of constituent yarns to air-mixing or composite false twisting, and elastic yarns in the core and non-woven fabrics in the sheath. It may be a covering yarn on which an elastic yarn is located.

  In the raised fabric of the present invention, the knitted fabric structure is not limited. For example, a pile fabric or moquette (double woven fabric) in which a loop pile such as a warp pile fabric, a weft pile fabric, a sinker pile knitted fabric, a raschel pile knitted fabric or a tricot pile knitted fabric is cut. It includes a pile fabric obtained by center cutting a pile fabric produced by a loom.

The novel appearance pile fabric of this invention can be manufactured, for example with the following manufacturing methods.
First, for example, a polyester resin is spun using a die having a discharge hole as shown in FIG. 2C on page 5 of JP-A-56-107044, etc., so that the cross-sectional flatness having two or more constricted portions is obtained. A yarn for polyester cut pile fibers having a flat cross section of 2 to 6 and a single yarn fineness of 1.5 dtex or less is obtained. On the other hand, a polyester fiber yarn for a ground texture part is obtained by spinning a polyester resin using a normal base. Next, a cut pile fabric is obtained using both yarns.

  At this time, the cut pile layer having the knitted structure is formed by knitting the ground structure and forming a loop pile structure such as a sinker pile, a pole tricot pile, and a double raschel pile extending on the ground structure. The method of cutting is used. The pole tricot pile is obtained by forming a pile knitted portion of a tricot knitted structure into a loop pile using a raising machine.

  On the other hand, in order to form a cut pile layer having a fabric structure, a warp pile fabric or a weft pile fabric is woven and the loop pile is cut, or a moquette fabric is woven, and the pile yarn is center cut.

  Such a napped fabric is usually subjected to a preset dry heat treatment, followed by a normal dyeing process and a final dry heat treatment. At that time, the temperature of the preset dry heat treatment is preferably 150 to 200 ° C., the temperature of the dyeing process is preferably 130 to 135 ° C., and the temperature of the final dry heat treatment is preferably 140 to 160 ° C.

  In the ground tissue portion of the raised fabric of the present invention, other layers such as a known back coating layer and a pile layer may be formed on the surface opposite to the cut pile layer. In addition, patterning by conventional etching, embossing, alkali weight loss processing, colored printing, water repellent processing, UV shielding agent, antibacterial agent, deodorant, insect repellent, phosphorescent agent, retroreflective agent, negative ion generator Various processings that provide such functions may be additionally applied.

  In the napped fabric thus obtained, the polyester cut pile fibers have a flat cross section and the single yarn fineness is as small as 1.5 dtex or less, so that a soft texture is obtained with a small bending rigidity. In addition, since the flat cross section has a constricted portion, the contact area becomes small when contacting with another object, so that the frictional resistance is small and excellent wear resistance is obtained. At the same time, deep color can be obtained by the unevenness effect of the constricted portion.

EXAMPLES Hereinafter, although an Example is given and this invention is demonstrated in detail, this invention is not limited at all by these. In addition, each physical property in an Example is measured with the following method.
(1) Texture By a KES-F4 surface characteristic test manufactured by Kato Tech Co., Ltd., the cloth to be tested was cut into a size of 20 cm × 20 cm, and a 0.5 mm diameter piano wire was bent as shown in FIG. A sample was pressure-bonded to the contact with a load of 98 mN (10 gf), and surface friction in the longitudinal direction and the weft direction was measured at a moving speed of the sample of 0.1 cm / sec and a measurement tension of 196 mN (20 gf) / cm. In addition, n number was set to 5 and the average value was calculated | required.
(2) Abrasion resistance 1
After rotating 20,000 times according to JIS L 1096-1990 6.32.4 D method (Martindale method), wear discoloration was evaluated using a gray scale for discoloration. In addition, n number was set to 5 and the average value was calculated | required.
(3) Abrasion resistance 2
The cloth to be tested is cut into a size of 20 cm × 3 cm by the JIS L 0894 Gakushin tester method, a load of 9.8 N (1.0 kgf) is applied, and after 10,000 rotations, the wear pile comes off. Evaluated. In addition, n number was set to 5 and the average value was calculated | required.
(4) Surface appearance Visually observed the piled-up state of the pile fiber. Δ: Normal. X: There is lodging and it is bad. A three-stage evaluation was performed.
(5) Deep color property Using a Macbeth color-Eye model M-2020 (manufactured by Colmogen, USA), the L value of the cloth to be tested was measured with a light source D65 and a 10-degree field of view. In addition, n number was set to 5 and the average value was calculated | required.

[Example 1]
72 pieces of polyethylene terephthalate resin having a matting agent (titanium oxide) content of less than 0.2% by weight are perforated in a spinneret and have a shape corresponding to the filament cross-sectional shape shown in FIG. Extrude at a spinning temperature of 300 ° C. through a melt spinning hole (having four arcuate bulges on one side and three constrictions formed between the two on the both sides of the longitudinal center line) and drawing by a usual method Thus, a drawn multifilament yarn having a yarn count of 88 dtex / 72 filaments (single yarn fineness of 1.2 dtex) was produced and used as a yarn for pile yarn. This pile yarn yarn is made of a filament (single fiber) having a cross-sectional shape as shown in FIG. 1, and the cross-sectional flatness (B / C1) of the cross-sectional shape is 3.2. The ratio (C1 / C2) of the maximum value (C1) of the width to the minimum value (C2) was 1.2.

  On the other hand, an ordinary polyethylene terephthalate resin is spun and drawn through a melt spinning hole having an ordinary round cross-sectional shape, thereby producing a drawn multifilament yarn having a yarn count of 84 dtex / 36 filaments. did. In addition, a normal polyethylene terephthalate resin is spun and stretched through a melt spinning hole having a normal round cross-sectional shape, and then subjected to a normal false twist crimping process, whereby a false twist multifilament having a yarn count of 84 dtex / 36 filaments. A yarn was prepared and used as a yarn for ground yarn.

Then, using a KARL MAYER tricot warp knitting machine, the pile yarn yarn is displayed as 筬: 1034, the middle yarn yarn is displayed as 筬: 1023, and the yarn for ground yarn is displayed. A knitted fabric with a wrinkle display of 1012, a course number of 86 courses / 2.54 cm, and a wale number of 28 wales / 2.54 cm. Then, the obtained loop pile fabric is subjected to a dyeing process, and a dye composition (dye bath) having the following composition:
Teratop Blue HLB (Trademark, Ciba Geigy) 0.4% (based on fabric mass)
Irgasol DAM (trademark, manufactured by Ciba Geigy) 1 g / liter Acetic acid 0.5 g / liter was used for dyeing at 130 ° C. for 45 minutes using a liquid flow dyeing machine (manufactured by Nisaka Seisakusho). The fabric after dyeing was subjected to a short loop dryer (manufactured by Hirano Techseed) and dried. Brushing treatment was performed with a padding machine (manufactured by Hirano Techseed Co., Ltd.), subjected to a dry heat setter, and subjected to a preset dry heat heat treatment at a temperature of 170 ° C. for a time of 1 minute in the expanded state, followed by raising the needle cloth Brush the tip of the loop pile with a machine (made by Nikkiso Co., Ltd.) and cut it, then use it for a shearing machine (made by Nikkiso Co., Ltd.) to cut and cut the tip of the loop pile. A pile (pile height 1 mm) was formed. The obtained cut pile fabric is subjected to a dry setter (manufactured by Hirano Techseed Co., Ltd.) and subjected to final dry heat treatment at 160 ° C. for 1 minute, and the number of courses: 79 courses / 2.54 cm, the number of wales: 43 wales / 2. A 54 cm raised fabric was obtained.

In the obtained napped fabric, the pile density is 9.27 × 10 ⁴ dtex / cm ² , the pile density cover factor is 6.86 × 10 ⁴ , the single yarn fineness of the polyester cut pile fiber is 1.2 dtex, and the deep color property is L value is 4.92, abrasion resistance 1 (Martindale method) is grade 3-4, abrasion resistance 2 (Gakushin Tester method) is grade 3, surface friction μ in the longitudinal direction is 0.32, latitude direction The surface friction μ was 0.297 and the surface appearance was ◯, which had both soft texture, wear resistance and deep color.

[Comparative Example 1]
In Example 1, as a yarn for pile yarn, a normal polyethylene terephthalate resin was spun and stretched through a melt spinning hole having a normal round cross section, and the yarn count was 56 dtex / 144 filaments. The number of courses: 79 courses / 2, in the same manner as in Example 1 except that filament yarn is used, and the number of courses is 90 courses / 2.54 cm and the number of wales is 28 wales / 2.54 cm. A raised fabric having a diameter of .54 cm and a wale number of 43 wales / 2.54 cm was obtained.

In the obtained napped fabric, the pile density was 5.61 × 10 ⁴ dtex / cm ² , the pile density cover factor was 2.31 × 10 ⁵ , the single yarn fineness of the polyester cut pile fiber was 0.39 dtex, and the deep color was L value 6.64, wear resistance 1 (Martindale method) third grade, wear resistance 2 (Gakushin Tester method) second grade, warp surface friction μ 0.313, weft surface When the friction μ was 0.325 and the surface appearance was ◯, the abrasion resistance and deep color were inferior.

[Comparative Example 2]
In Example 1, as a yarn for pile yarn, a normal polyethylene terephthalate resin was spun and drawn through a melt spinning hole having a normal flat cross-sectional shape, and a yarn count of 88 dtex / 72 filaments was obtained. In the same manner as in Example 1 except that a flat yarn is used and a knitted fabric having a course number of 90 courses / 2.54 cm and a wale number of 28 wales / 2.54 cm is knitted, the number of courses: 79 courses / A napped fabric having a size of 2.54 cm and a wale number of 43 wales / 2.54 cm was obtained.

In the obtained napped fabric, the pile density was 9.26 × 10 ⁴ dtex / cm ² , the pile density cover factor was 6.86 × 10 ⁴ , the single yarn fineness of the polyester cut pile fiber was 1.2 dtex, and the deep color was L value 5.64, wear resistance 1 (Martindale method) third grade, wear resistance 2 (Gakushin tester method) second grade, warp surface friction μ 0.313, weft direction surface When the friction μ was 0.325 and the surface appearance was ◯, the abrasion resistance and deep color were inferior.

  The raised fabric of the present invention has a soft texture, abrasion resistance, and deep color, so it is used for vehicle interiors such as car seats and ceiling members, for home and office interiors such as chairs and carpets, and exhibition halls. It can be used as a textile product for interior and clothing, and its industrial value is extremely large.

It is a figure which shows typically one example of the single fiber cross-sectional shape which can be used of the polyester cut pile fiber which comprises the raised fabric of this invention. It is a figure which shows typically one example of the single fiber cross-sectional shape which can be used of the polyester cut pile fiber which comprises the raised fabric of this invention. It is a figure which shows typically one example of the single fiber cross-sectional shape which can be used of the polyester cut pile fiber which comprises the raised fabric of this invention. It is a figure which shows typically the thickness direction cross section of the standing fabric of this invention. It is a figure of the contactor used in a hand test.

Explanation of symbols

1 Cross section of single fiber 2 Polyester cut pile fiber 3 Ground tissue part

Claims (8)

A napped fabric having a ground tissue portion made of polyester fiber yarn and having a knitted fabric structure, and a cut pile layer made of a plurality of polyester cut pile fibers knitted or woven into the ground tissue portion,
The polyester cut pile fiber has a flat cross-section with a cross-sectional flatness of 2 to 6 having two or more constricted portions, and the single yarn fineness is 1.5 dtex or less, and soft texture and resistance A deep-colored raised fabric having abrasion properties.   The deep-colored raised fabric having a soft texture and abrasion resistance according to claim 1, wherein the single yarn fineness of the polyester cut pile fiber is in the range of 0.6 to 1.4 dtex.   The ratio (C1 / C2) of the maximum value (C1) of the width (C1 / C2) to the minimum value (C2) in the flat cross section of the polyester cut pile fiber is in the range of 1.05 to 4.00. Item 3. A deep-colored raised fabric having a soft texture and abrasion resistance according to Item 2.   Depth having soft texture and wear resistance according to any one of claims 1 to 3, wherein the content of the matting agent contained in the polyester cut pile fiber is less than 0.2% by weight based on the fiber weight. Colored standing fabric.   The deep-colored raised fabric having a soft texture and abrasion resistance according to any one of claims 1 to 4, wherein the polyester cut pile fiber is untwisted. The soft texture and resistance according to any one of claims 1 to 5, wherein the pile density of the polyester cut pile fiber is 5 x 10 ⁴ dtex / cm ² or more, and the pile density cover factor is 2 x 10 ⁴ or more. A deep-colored raised fabric having abrasion properties.   The deep-colored raised fabric having a soft texture and abrasion resistance according to any one of claims 1 to 6, which is dyed.   A textile product for automobile interior or interior, comprising the raised fabric according to any one of claims 1 to 7.

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