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A kind of preparation method of special type titanium dioxide pigment for electrophoretic coating

A technology of titanium dioxide and electrophoretic coatings, applied in electrophoretic coatings, chemical instruments and methods, inorganic pigment treatment, etc., can solve the problem that hiding power and light resistance cannot fully meet high-end electrophoretic coatings, non-ferrous metal impurities cannot be removed cleanly, and particle size distribution is wide, etc. problem, to achieve the effect of excellent hiding power, high light resistance, and improved dispersion performance

Active Publication Date: 2016-03-16
中信钛业股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the inherent defects of the sulfuric acid method, the non-ferrous metal impurities in the product during the production process cannot be removed completely, resulting in the product whiteness and brightness indicators being comparable to those of the chloride method product; The degree, gloss and dispersibility cannot meet the needs of high-end electrophoretic coatings. Therefore, there are almost no special products for electrophoretic coatings launched by the sulfuric acid method.
The production process of titanium dioxide by chloride method can meet the requirements of electrophoretic coatings in terms of whiteness, brightness and other indicators, but this type of products cannot fully meet the requirements of high-end electrophoretic coatings in terms of specific indicators such as resistivity, hiding power, and light resistance. needs

Method used

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  • A kind of preparation method of special type titanium dioxide pigment for electrophoretic coating

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] 1.1. Weigh 400g of the primary rutile titanium dioxide powder prepared by the chlorination method. The alumina content in the primary titanium dioxide product is 0.6%. Add deionized water to prepare a slurry with a concentration of 300g / L. The pH meter is used for the entire coating process Detect the pH value of the slurry, adjust the pH of the slurry to 9.0 with sodium hydroxide solution, add potassium silicate solution, the concentration of potassium silicate solution is expressed as SiO 2 Calculated as 50g / L, the amount of potassium silicate solution added is calculated as SiO in potassium silicate 2 accounted for TiO 2 0.1% by weight, dispersed for 20 minutes;

[0028] 1.2. Grinding the dispersed slurry so that the average particle size of the slurry is 280nm, the particle size distribution is calculated by number, and the proportion exceeding 500nm is no more than 7.6%, and the grinding medium is removed from the slurry;

[0029] 1.3. Heat the ground slurry to 5...

Embodiment 2

[0035] 1.1. Weigh 400g of the primary rutile titanium dioxide powder prepared by the chlorination method. The alumina content in the primary titanium dioxide product is 0.8%. Add deionized water to prepare a slurry with a concentration of 450g / L. The entire coating process uses a pH meter Detect the slurry pH value, adjust the slurry pH to 10.0 with sodium hydroxide solution, add sodium silicate solution, the concentration of sodium silicate solution is SiO 2 Calculated as 150g / L, the amount of sodium silicate solution added is the amount of SiO in sodium silicate 2 accounted for TiO 2 0.3% by weight, dispersed for 25 minutes;

[0036] 1.2. Grinding the dispersed slurry so that the average particle size of the slurry is 350nm, the particle size distribution is calculated by number, and the proportion exceeding 500nm is not more than 6.8%, and the grinding medium is removed from the slurry;

[0037] 1.3. Heat the ground slurry to 65°C, and maintain this temperature throughout...

Embodiment 3

[0043] 1.1. Weigh 400g of the primary rutile titanium dioxide powder prepared by the chlorination method. The alumina content in the primary titanium dioxide product is 1.2%. Add deionized water to prepare a slurry with a concentration of 600g / L. The pH meter is used for the entire coating process Detect the pH value of the slurry, adjust the pH of the slurry to 11.0 with potassium hydroxide solution, add potassium silicate solution, the concentration of potassium silicate solution is expressed as SiO 2 Calculated as 300g / L, the amount of potassium silicate solution added is 0.5% based on the weight of silicon dioxide in potassium silicate in the initial titanium dioxide product, and dispersed for 30 minutes;

[0044] 1.2. Grinding the dispersed slurry so that the average particle size of the slurry is 265nm, the particle size distribution is calculated by quantity, and the proportion exceeding 500nm is no more than 5.4%, and the grinding medium is removed from the slurry;

[...

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Abstract

The invention provides a preparation method of a special titanium dioxide pigment for an electrophoretic paint. The preparation method comprises the steps: preparing a titanium dioxide rutile primary product which is prepared by a chlorination method into slurry, adjusting the pH value, adding a silicate dispersant, and carrying out grinding treatment after dispersion; heating the ground slurry, adding a water-soluble meta-aluminate solution, adjusting the pH value, aging, and covering surfaces of the titanium dioxide particles with a layer of hydrated alumina; adding the water-soluble meta-aluminate solution, adjusting the pH value, aging, and covering the surface of the hydrated alumina with a second layer of boehmite or imitation boehmite alumina; adjusting the pH value of the terminal point and aging; and washing with water, filtering and drying, and carrying out steam-powder treatment to obtain the special titanium dioxide pigment for the electrophoretic paint. The titanium dioxide pigment prepared by the method is excellent in light resistance, covering power and tinting strength; the special titanium dioxide pigment product shows a blue undertone, and is high in electrical resistivity and good in dispersing performance; therefore, the titanium dioxide pigment meets the requirements in the high-grade electrophoretic paint field.

Description

technical field [0001] The invention relates to a preparation method of a special titanium dioxide pigment for electrophoretic coatings. Background technique [0002] Titanium dioxide is an important fine chemical raw material in the chemical and light chemical industries. Titanium dioxide is the "king of white pigments" and is widely used in industrial production such as coatings, plastics, paper, rubber, and chemical fibers. With the rapid development of my country's economy, electrophoretic coatings, as a new type of low-pollution, energy-saving, resource-saving, and protective anti-corrosion coatings, have the characteristics of smooth coating, good water resistance and chemical resistance. , It is easy to realize the mechanization and automation of the coating industry, suitable for the coating of workpieces with complex shapes, edges, corners and holes, and has been widely used in the coating of hardware materials such as automobiles, electric vehicles, electromechanic...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C09C1/36C09C3/04C09C3/06C09D5/44
Inventor 齐牧于学成王建伟姜志刚刘立新王伟楠
Owner 中信钛业股份有限公司