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High Ink Absorption Dye Sublimation Transfer Digital Paper

A dye-sublimation and digital paper technology, applied in papermaking, paper coating, surface covering paper, etc., can solve the problems of lack of functional design, influence of dye transfer rate, low reuse rate, etc., to achieve sufficient ink absorption and transfer Ideal effect and high transfer efficiency

Active Publication Date: 2016-01-20
杭州华大海天科技股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] However, in the prior art, one-layer coating is usually used to produce sublimation transfer printing digital coated paper, and the molecules are saturated with each other, resulting in a relatively small amount of ink absorption. There are also reports of two-layer coating but lack of function design
Some sublimation transfer digital coated papers contain glycerin. During the high-temperature transfer process, glycerin is transferred to the surface of chemical fiber cloth, leather, and ceramics along with the dye, which will affect the quality of patterns and images.
In addition, the current sublimation transfer printing digital coated paper technology still has disadvantages such as low ink absorption, slow drying speed, low reuse rate, and dye molecules penetrating into the substrate paper to affect the dye transfer rate.

Method used

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  • High Ink Absorption Dye Sublimation Transfer Digital Paper

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] Sublimation transfer digital paper with high ink absorption capacity, including substrate paper 1, hydrophobic layer 2 coated on the surface of substrate paper 1, ink-absorbing layer 3 coated on the surface of hydrophobic layer 2, and ink-absorbing layer 3 The surface is provided with a surface layer 4 .

[0033] The ink-absorbing layer 3 is calculated by weight percentage, and the components and contents are respectively:

[0034] Cationic polyacrylamide cellulose interpenetrating network resin 65%;

[0035] Porous silica 35%.

[0036] The surface layer 4 is polyvinyl alcohol-vinyl acetate copolymer.

[0037] The hydrophobic layer 2 is acrylic resin modified with simethicone.

[0038] The mass of the ink-absorbing layer 3 on the substrate paper 1 per square meter is 4 grams. The mass of the upper surface layer 4 per square meter of the substrate paper 1 is 2 grams. The mass of the hydrophobic layer 2 on the substrate paper 1 per square meter is 0.5 grams.

Embodiment 2

[0040] Sublimation transfer digital paper with high ink absorption capacity, including substrate paper 1, hydrophobic layer 2 coated on the surface of substrate paper 1, ink-absorbing layer 3 coated on the surface of hydrophobic layer 2, and ink-absorbing layer 3 The surface is provided with a surface layer 4 .

[0041] The ink-absorbing layer 3 is calculated by weight percentage, and the components and contents are respectively:

[0042] Cationic polyacrylamide cellulose interpenetrating network resin 98%;

[0043] Porous Calcium Carbonate 2%.

[0044] The surface layer 4 is polyvinyl butyral.

[0045] The hydrophobic layer 2 is acrylic resin modified by methyl ethyl silicone oil.

[0046] The mass of the ink-absorbing layer 3 on the substrate paper 1 per square meter is 10 grams. The mass of the upper surface layer 4 per square meter of the substrate paper 1 is 4 grams. The mass of the hydrophobic layer 2 on the substrate paper 1 per square meter is 2 grams.

Embodiment 3

[0048] Sublimation transfer digital paper with high ink absorption capacity, including substrate paper 1, hydrophobic layer 2 coated on the surface of substrate paper 1, ink-absorbing layer 3 coated on the surface of hydrophobic layer 2, and ink-absorbing layer 3 The surface is provided with a surface layer 4 .

[0049] The ink-absorbing layer 3 is calculated by weight percentage, and the components and contents are respectively:

[0050] Cationic polyacrylamide cellulose interpenetrating network resin 68%;

[0051] Porous alumina 32%.

[0052] The surface layer 4 is polyvinyl alcohol.

[0053] The hydrophobic layer 2 is vinyl silicone oil modified acrylic resin.

[0054] The mass of the ink-absorbing layer 3 on the substrate paper 1 per square meter was 4.1 grams. The mass of the upper surface layer 4 per square meter of the substrate paper 1 is 3 grams. The mass of the hydrophobic layer 2 on the substrate paper 1 per square meter is 1 gram.

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Abstract

The invention belongs to the field of transfer paper and particularly relates to a piece of thermal sublimation and transfer digital paper with high ink suction amount. The thermal sublimation and transfer digital paper comprises a piece of substrate paper, a hydrophobic layer coated on the surface of the substrate paper, an ink suction layer coated on the surface of the hydrophobic layer, and a surface layer on the upper surface of the ink suction layer. In terms of calculation by weight, the ink suction layer is a composite material of an inorganic material and cationic polyacrylamide cellulose interpenetrating network resin, wherein the inorganic material is one or a combination of two of porous silicon dioxide or porous calcium carbonate or porous alumina. The hydrophobic layer is organosilicone modified acrylic resin. According to the thermal sublimation and transfer digital paper, the composition material which is one or the combination of two of the porous silicon dioxide or the porous calcium carbonate or the porous alumina is added into the ink suction layer, the solid porous structure can rapidly and sufficiently absorb dye molecules, and the ink suction amount of the thermal sublimation and transfer digital paper is remarkably increased.

Description

technical field [0001] The invention belongs to transfer printing paper, in particular to thermal sublimation transfer printing digital paper with high ink absorption. Background technique [0002] Printing and dyeing is a general term for dyeing, printing, finishing, washing and other processing methods. my country's printing and dyeing has an important impact on the global clothing industry, but it also produces huge amounts of wastewater and environmental problems. In 2011, the national output of printed and dyed cloth reached 59.3 billion meters, of which Zhejiang Province's output reached 36.2 billion meters, accounting for 61.1% of the national total; followed by Guangdong, Jiangsu and Fujian. In 2012, my country's production of printed and dyed cloth reached more than 60 billion meters. With the advent of green chemistry and personalized digital age, digital thermal transfer printing technology is developing rapidly. 10-20% of the printing and dyeing fabrics in Euro...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): D21H27/18D21H19/34D21H19/82D21H19/10
Inventor 林贤福吕德水陈志春
Owner 杭州华大海天科技股份有限公司
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