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Disperse dye and method for dyeing hydrophobic fiber material using same

A hydrophobic fiber and disperse dye technology, applied in the field of dye composition, can solve the problems of fading, difference in dyeing repeatability of synthetic fiber materials, unbalanced light fastness, etc., and achieve the effect of high light fastness

Inactive Publication Date: 2013-07-31
NIPPON KAYAKU CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the imbalance among the respective lightfastnesses of the yellow dye, the red dye, and the blue dye causes only a part of the colored dyes to fade due to long-term exposure to light, resulting in a color different from the original color
This causes the following disadvantages: Color changes from the initial color appear more noticeable
[0004] Even when automotive interior materials are dyed with disperse dyes with the highest possible light fastnesses, unbalanced dyeing characteristics (e.g. dyeing speed) between yellow, red and blue dyes can cause dyeing of synthetic fiber materials Differences in repeatability

Method used

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  • Disperse dye and method for dyeing hydrophobic fiber material using same
  • Disperse dye and method for dyeing hydrophobic fiber material using same
  • Disperse dye and method for dyeing hydrophobic fiber material using same

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0077] Embodiment 1: the manufacture of disperse dye composition

[0078] To 10.2% of the raw material powder represented by the formula (1), 10.0% of the raw material powder represented by the formula (2), 13.1% of the raw material powder represented by the formula (3) and 5.6% of the raw material powder represented by the formula (5) The raw material powder was added with a dispersant in an amount of 61.1%, and then pulverized to produce a yellow-based disperse dye composition.

[0079] To 24.5% of the raw material powder represented by the formula (6-1), 10.3% of the raw material powder represented by the formula (6-2), and 7.5% of the raw material powder represented by the formula (6-3) in an amount of 57.7% dispersant, which is then pulverized to produce a red-based disperse dye composition.

[0080] A dispersant in an amount of 67.9% was added to 12.8% of the raw material powder represented by the formula (7-1) and 19.3% of the raw material powder represented by the for...

Embodiment 2

[0081] Embodiment 2: the manufacture of disperse dye composition

[0082] To 10.2% of the raw material powder represented by the formula (1), 10.0% of the raw material powder represented by the formula (2), 8.6% of the raw material powder represented by the formula (4) and 5.6% of the raw material powder represented by the formula (5) The raw material powder was added with a dispersant in an amount of 65.6%, and then pulverized to produce a yellow-based disperse dye composition.

[0083] To 24.5% of the raw material powder represented by the formula (6-1), 10.3% of the raw material powder represented by the formula (6-2), and 7.5% of the raw material powder represented by the formula (6-3) in an amount of 57.7% dispersant, which is then pulverized to produce a red-based disperse dye composition.

[0084] A dispersant in an amount of 67.9% was added to 12.8% of the raw material powder represented by the formula (7-1) and 19.3% of the raw material powder represented by the form...

Embodiment 3

[0086]In pure water, the yellow disperse dye composition of 0.607% o.w.f. (based on fiber weight), the red disperse dye composition of 0.204% o.w.f. and the blue disperse dye composition of 0.260% o.w.f. Acetic acid and sodium acetate were adjusted to pH 4.5, and 2.0% o.w.f. of an ultraviolet absorber (SUNLIFE LPX-50, manufactured by Nicca Chemical Co., Ltd.) was added thereto to prepare 2000 parts of a dyeing bath. In a dyeing bath, soak 100 parts polyester fleece fabric (use 0.3 denier yarn on the front side and 3 denier yarn on the back side) and dye at 135°C for 30 minutes. The dyed article was then prepared in a bath consisting of 6 parts of 45% caustic soda, 6 parts of bisulfite, 3 parts of Sunmol RC-700 (anionic surfactant manufactured by Nicca Chemical Co., Ltd.) and adding water In a bath of a total amount of 3000 parts, reduction cleaning was performed at 80° C. for 10 minutes, washed with water, and then dried to produce a beige-dyed article. The dyed article thus ...

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Abstract

The present invention relates to a disperse dye composition containing a disperse dye and the like represented by formulas (1) through (4), and a method for dyeing a hydrophobic fiber material using the same. The present invention provides a disperse dye composition and a mixed disperse dye composition that not only have strong light fastness of each color, but also well-balanced light fastness between the three primary colors, and uniform dye properties during dyeing. The present invention also provides a method for dyeing using the disperse dye composition and the mixed disperse dye composition.

Description

technical field [0001] The present invention relates to dye compositions and methods of dyeing using said dye compositions. More particularly, the present invention relates to a disperse dye composition comprising a specific dye and a method of dyeing a hydrophobic fiber material using the dye composition. Background technique [0002] For synthetic fiber materials used as automotive interior materials, high temperature resistance and light resistance are required due to the high temperature and high humidity in vehicles and the length of time exposed to sunlight much longer than for fiber materials used for ordinary clothing. In order to meet said requirements, fiber materials are dyed with dyes having high light fastness. However, the imbalance among the light fastness of each of the yellow dye, the red dye and the blue dye causes only a part of the colored dyes to fade due to long-term exposure to light, resulting in a color different from the original color. This cause...

Claims

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Application Information

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IPC IPC(8): C09B67/20C09B1/14C09B1/22C09B1/32C09B1/60C09B5/30C09B29/40C09B57/00C09B57/12C09B67/22C09B67/46D06P1/16D06P1/18D06P1/20
CPCC09B1/32C09B67/0041C09B1/545C09B29/3613C09B1/22C09B1/585C09B1/50C09B1/5145C09B67/0033C09B5/32C09B1/547C09B51/00C09B67/0066C09B1/14
Inventor 山本信孝德山博满山口彻
Owner NIPPON KAYAKU CO LTD
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