Anti-radiation ceramics ink-jet ink with marble crack effect and preparing method thereof

A ceramic inkjet and radiation protection technology, applied in the field of ceramics

Inactive Publication Date: 2017-01-25
FOSHAN GAOMING HAIDI CERAMIC RAW MATERIAL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are few reports on ceramic inks with functional marble texture effects, so the technology needs to be improved and improved, and there is an urgent need to develop functi

Method used

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  • Anti-radiation ceramics ink-jet ink with marble crack effect and preparing method thereof

Examples

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Effect test

Embodiment 1

[0038] A radiation-proof ceramic ink-jet ink with marble crack effect and a preparation method thereof, the preparation method comprising the following steps:

[0039] Step A. Mix and stir 18% abietyl alcohol, 5% Solsperse54000, 3% lauryl alcohol, 0.2% BYK-088 and 1.7% isomeric decanol polyoxyethylene ether E-05 to form a mixed solution, and then add 0.1% antibacterial compound Stir the material evenly, move it to a horizontal sand mill and continue stirring at 3500 rpm;

[0040] Step B. Slowly add 46% penetrating powder (V2O5, BiVO4, WO3, Bi2W3O12 mixed in a weight ratio of 2:1:3:1) and 7% anti-radiation compound to the horizontal sand mill, and add After finishing, continue to grind until the average particle size of the ink is lower than 600nm, then add 18% undecanol and 1% negative ion complex, and continue to grind until the average particle size of the ink is controlled at 200-400nm to obtain a semi-finished ink;

[0041] Step C, put the ink semi-finished product obtain...

Embodiment 2

[0053] A radiation-proof ceramic ink-jet ink with marble crack effect and a preparation method thereof, the preparation method comprising the following steps:

[0054] Step A. Mix and stir 18% abietyl alcohol, 5% Solsperse54000, 3% lauryl alcohol, 0.2% BYK-088 and 1.3% isomeric decanol polyoxyethylene ether E-05 to form a mixed solution, and then add 2.5% antibacterial compound Stir the material evenly, move it to a horizontal sand mill and continue stirring at 3500 rpm;

[0055] Step B. Slowly add 44% penetrating powder (V2O5, BiVO4, WO3, Bi2W3O12 mixed in a weight ratio of 2:1:3:1) and 5% anti-radiation compound to the horizontal sand mill, and add After finishing, continue to grind until the average particle size of the ink is lower than 600nm, then add 18% undecanol and 3% negative ion complex, and continue to grind until the average particle size of the ink is controlled at 200-400nm to obtain a semi-finished ink;

[0056] Step C, put the ink semi-finished product obtain...

Embodiment 3

[0068] A radiation-proof ceramic ink-jet ink with marble crack effect and a preparation method thereof, the preparation method comprising the following steps:

[0069]Step A. Mix and stir 16% abietyl alcohol, 5% Solsperse54000, 3% lauryl alcohol, 0.2% BYK-088 and 1.8% isomeric decanol polyoxyethylene ether E-05 to form a mixed solution, and then add 5% antibacterial compound Stir the material evenly, move it to a horizontal sand mill and continue stirring at 3500 rpm;

[0070] Step B. Slowly add 45% infiltration powder (V2O5, BiVO4, WO3, Bi2W3O12 mixed in a weight ratio of 2:1:3:1) and 2% anti-radiation compound to the horizontal sand mill, and add After finishing, continue to grind until the average particle size of the ink is lower than 600nm, then add 16% undecanol and 6% negative ion complex, and continue to grind until the average particle size of the ink is controlled at 200-400nm to obtain a semi-finished ink;

[0071] Step C, put the ink semi-finished product obtained...

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Abstract

The invention discloses an anti-radiation ceramics ink-jet ink with marble crack effect and a preparing method thereof. The preparing method comprises the following steps: A, mixing a solvent, hyperdispersant, modifier, an antifoaming agent and a nonproliferation agent to be prepared into a mixing solution; and then adding an antimicrobial composite to be uniformly stirred;B, adding permeation powder and a negative ion compound, after being grinded, adding the solvent and an anti-radiation composite into the mixture, after being grinded, obtaining the semi-finished product of ink; step C, filtering and obtaining finished product of the ink. Compared with the current ceramics ink,the ceramics ink provided in the invention has scientific burdening and stable performance.With marble line, color and texture, the decoration effect of the tile is improved further; the ceramics ink can be widely applied in the fields of tiles,archaized brick, etc. By burdening the anti-radiation composite, negative ion composite and antimicrobial composite rationally, the ceramics ink has features of excellent bacterial resistance, air purifying and radiation resistance; and the application range is further widened.

Description

technical field [0001] The invention relates to the technical field of ceramics, in particular to a radiation-proof ceramic ink-jet ink with marble crack effect and a preparation method thereof. Background technique [0002] Bacteria and mold, as pathogenic bacteria, are very harmful to humans, animals and plants, affecting people's health and even life-threatening, and bringing significant economic losses. Therefore, the research on antibacterial materials and their products has attracted people's attention day by day, and the demand for antibacterial products will constitute a huge market. [0003] With the advancement of science and technology and the rapid development of the information industry, equipment or systems such as computers, mobile phones, fax machines, telephones, and networks have been widely used in the processing of information generation, transmission, reception, and storage. This type of equipment is inseparable from the action of electromagnetic waves ...

Claims

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Application Information

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IPC IPC(8): C09D11/38C09D11/30
CPCC09D11/38C09D11/30
Inventor 于庆九邱杰华
Owner FOSHAN GAOMING HAIDI CERAMIC RAW MATERIAL CO LTD
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