Carbon powder group and production method thereof

A technology of toner group and toner, which is applied in the fields of electrography, optics, instruments, etc. It can solve the problems of fading pictures, limiting the use of ceramic toner, and expensive prices.

Active Publication Date: 2015-04-29
ICMI CHINA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, due to the particularity of ceramic pigments, such as some pigments will react and change color when sintered at high temperature, generally the magenta color produced is light, and when this toner is used for portrait printing, it will cause the picture to fade
In addition, the price of foreign ceramic toner is quite expensive, which limits the use of ceramic toner

Method used

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Examples

Experimental program
Comparison scheme
Effect test

no. 1 example

[0028] Preparation of black ceramic carbon powder: select 40 parts by weight of cobalt black powder with a particle size of less than 1 micron, 55 parts by weight of polyester resin, 4 parts by weight of polypropylene wax, and 1 part by weight of charge control agent (CCA), mixed , extrusion, coarse crushing, fine crushing, and classification to obtain a black ceramic base powder with an average particle diameter of 8 microns. The base powder of 100 parts by weight is mixed with 2 parts by weight of hydrophobic silicon dioxide to obtain a finished black ceramic powder.

[0029] The preparation of cyan ceramic carbon powder: choose the cobalt blue powder that the particle size of 35 weight parts is less than 1 micron, the polyester resin of 60 weight parts, the polypropylene wax of 4 weight parts, the CCA of 1 weight part, through mixing, extruding, coarse Crushing, finely crushing and grading to obtain cyan ceramic base powder with an average particle diameter of 10 microns, mi...

no. 2 example

[0034] Preparation of black ceramic carbon powder: select 35 parts by weight of cobalt black powder with a particle size of less than 1 micron, 60 parts by weight of polyester resin, 4 parts by weight of polypropylene wax, and 1 part by weight of charge control agent (CCA), mixed , extrusion, coarse crushing, fine crushing, and classification to obtain a black ceramic base powder with an average particle diameter of 9 microns, and mix 100 parts by weight of the base powder with 2 parts by weight of hydrophobic silicon dioxide to obtain a finished black ceramic powder.

[0035] The preparation of cyan ceramic carbon powder: choose the cobalt blue powder that particle size of 40 weight parts is less than 1 micron, the polyester resin of 55 weight parts, the polypropylene wax of 4 weight parts, the CCA of 1 weight part, through mixing, extruding, coarse Crushed, finely crushed and classified to obtain cyan ceramic base powder with an average particle diameter of 11 microns, 100 pa...

no. 3 example

[0039] Preparation of black ceramic carbon powder: select 30 parts by weight of cobalt black powder with a particle size of less than 1 micron, 65 parts by weight of polyester resin, 4 parts by weight of polypropylene wax, and 1 part by weight of charge control agent (CCA), mixed , extrusion, coarse crushing, fine crushing, and classification to obtain a black ceramic base powder with an average particle diameter of 8 microns. The base powder of 100 parts by weight is mixed with 2 parts by weight of hydrophobic silicon dioxide to obtain a finished black ceramic powder.

[0040] The preparation of cyan ceramic carbon powder: choose the cobalt blue powder that particle size of 45 parts by weight is less than 1 micron, the polyester resin of 50 parts by weight, the polypropylene wax of 4 parts by weight, the CCA of 1 part by weight, through mixing, extruding, coarse Crushing, finely crushing and grading to obtain cyan ceramic base powder with an average particle diameter of 10 mic...

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PUM

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Abstract

The invention provides a carbon powder group. The carbon powder group at least comprises four types of independent ceramic carbon powder, namely black ceramic carbon powder, yellow ceramic carbon powder, green ceramic carbon powder and red ceramic carbon powder, wherein each of the black ceramic carbon powder, the yellow ceramic carbon powder and the green ceramic carbon powder comprises an inorganic ceramic pigment; the grain diameter of each inorganic ceramic pigment is less than 1 micron; the granularities of the black ceramic carbon powder, the yellow ceramic carbon powder and the green ceramic carbon powder are 7-12 microns; the red ceramic carbon powder comprises covered red pigment powder; the grain diameter of the covered red pigment powder is 2-8 microns; and the granularity of the red ceramic carbon powder is 10-20 microns. The carbon powder group is very suitable for printing high-pixel full-color pictures; the pictures have bright colors, clear layers and vivid images; and the printing effect of the carbon powder group is better than the printing effect of multi-color carbon powder in the prior art.

Description

technical field [0001] The invention relates to a four-color carbon powder for color pattern imaging of a laser printer, in particular to a four-color ceramic carbon powder modified by inorganic ceramic pigments and package red. Background technique [0002] In the ceramic industry, the patterns on the surface of ceramics are generally realized by hand drawing or screen printing. However, hand drawing is slow, inefficient, and limited by the skill of the painter. Screen printing can achieve mass production and greatly improve production efficiency, but screen printing is also quite cumbersome for color patterns. For example, color separation is required for plate making, and then multiple color plates are made, and then different colors are required one by one. Printed onto the ceramic surface, followed by sintering separately, and finally get the color pattern. Although the effect of screen printing is acceptable for general patterns, but for portrait photos, it is found t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G03G9/09G03G9/08
Inventor 张秀山汤付根
Owner ICMI CHINA
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