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A kind of high-temperature water-based high-covering white ink and preparation method thereof

A white ink, water-based technology, used in inks, household appliances, applications, etc., can solve problems such as poor ability to adapt to environmental temperature changes, no stable performance, etc., to improve gloss, reduce waste, and reduce trachoma.

Active Publication Date: 2021-01-19
FOSHAN CITY GREEND CHEM
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the above two inks have poor ability to adapt to environmental temperature changes during use, and do not have good stability in the case of sharp temperature changes.

Method used

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  • A kind of high-temperature water-based high-covering white ink and preparation method thereof
  • A kind of high-temperature water-based high-covering white ink and preparation method thereof
  • A kind of high-temperature water-based high-covering white ink and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0069] S01, preparation of glass-based glaze:

[0070] The components and mass percentages in the glass-based glaze are:

[0071] Sodium borate 23.4%, silicon oxide 31.1%, zinc oxide 10.9%, potassium carbonate 5.5%, soda ash 7.8%, lithium carbonate 6.9%, silica lime 6.0%, titanium dioxide 1.5%, tin oxide 2.3%, potassium feldspar 4.6%;

[0072] The raw materials in the above-mentioned glass-based glaze are mixed evenly and then melted at 1000°C. After melting, water quenching, water milling, pressure filtration, drying and sieving are carried out in sequence to obtain the glass-based glaze. The above water milling time is 20 hours, the ratio of beads to water is 3:1:1, and the size ratio of beads is large: medium: small = 1:1:3. Use a 500-mesh vibrating sieve to filter the water for grinding, then press filter to remove water and dry , and sieved with 500 meshes after drying to obtain glass-based glaze;

[0073] S02, preparation of varnish:

[0074] Each component and mass p...

Embodiment 2

[0081] S01, preparation of glass-based glaze:

[0082] The components and mass percentages in the glass-based glaze are:

[0083] Sodium borate 23.4%, silicon oxide 30.0%, zinc oxide 10.9%, potassium carbonate 1.0%, soda ash 15.0%, lithium carbonate 5.3%, silica lime 6.0%, titanium dioxide 1.5%, tin oxide 2.3%, potassium feldspar 4.6%;

[0084] The raw materials in the above-mentioned glass-based glaze are mixed evenly and then melted at 1000°C. After melting, water quenching, water milling, pressure filtration, drying and sieving are carried out in sequence to obtain the glass-based glaze. The above water milling time is 20 hours, the ratio of beads to water is 3:1:1, and the size ratio of beads is large: medium: small = 1:1:3. Use a 500-mesh vibrating sieve to filter the water for grinding, then press filter to remove water and dry , and sieved with 500 meshes after drying to obtain glass-based glaze;

[0085] S02, preparation of varnish:

[0086] Each component and mass ...

Embodiment 3

[0093] S01, preparation of glass-based glaze:

[0094] The components and mass percentages in the glass-based glaze are:

[0095] Sodium borate 15.2%, silicon oxide 40.0%, zinc oxide 20.0%, potassium carbonate 1.0%, soda ash 8.5%, lithium carbonate 7.8%, silica lime 2.0%, titanium dioxide 2.0%, tin oxide 3.0%, potassium feldspar 0.5%;

[0096] The raw materials in the above-mentioned glass-based glaze are mixed evenly and then melted at 1000°C. After melting, water quenching, water milling, pressure filtration, drying and sieving are carried out in sequence to obtain the glass-based glaze. The above water milling time is 20 hours, the ratio of beads to water is 3:1:1, and the size ratio of beads is large: medium: small = 1:1:3. Use a 500-mesh vibrating sieve to filter the water for grinding, then press filter to remove water and dry , and sieved with 500 meshes after drying to obtain glass-based glaze;

[0097] S02, preparation of varnish:

[0098] Each component and mass p...

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Abstract

The invention discloses a high-temperature water-based high-covering-power white ink and a preparation method thereof. The white ink is prepared by mixing and grinding 40-60% by mass of a glass-basedglaze, 15-35% by mass of ink adjusting oil and 15-35% by mass of titanium dioxide. A heat-resistant material component in the glass-based glaze enables the prepared ink to have good high-temperature resistance, and to adapt to the application environment in which the temperature changes drastically. A water-grinding manner is adopted in a preparation process of the glass-based glaze to improve glossiness of the glass-based glaze, reduce sand holes and improve covering power of the ink. After the water grinding, the method of filter pressing to remove water can effectively prevent the re-agglomeration of the material. The invention also provides a method of using the white ink. The white ink has strong covering power, good high-temperature resistance, high glossiness and excellent corrosionresistance, and the production process is environmentally friendly, and is suitable for industrial production.

Description

technical field [0001] The invention belongs to the technical field of inks, and in particular relates to a high-temperature water-based high-covering white ink and a preparation method thereof. Background technique [0002] With the rapid progress of industrial manufacturing technology, the printing industry has also developed rapidly. Printing is to transfer text, pictures, photos, anti-counterfeiting and other original information through plate making, ink application, pressurization and other processes, so that the ink is transferred to the surface of paper, fabrics, plastics, leather and other materials. Technology that transfers content to the surface of the substrate. In the process of printing implementation, the selection of ink is an important step. According to different substrates and different use environments, choosing ink with suitable performance can well take into account the requirements of quality, environmental protection and cost in production. Traditi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C09D11/106C09D11/14C09D11/03C08F283/10C08F220/06C08F220/20C08F220/14
CPCC08F283/10C09D11/03C09D11/106C09D11/14C08F220/06C08F220/14C08F220/20
Inventor 黄福明罗志刚
Owner FOSHAN CITY GREEND CHEM
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