Rare-earth polishing material with a core shell structure and preparation method thereof

A rare earth polishing and core-shell structure technology, applied in the field of rare earth polishing materials and their preparation, can solve the problems of polishing scratches, complicated preparation steps, complicated methods, etc., and achieve the effects of high cutting ability, easy industrialization, and simple process

Inactive Publication Date: 2009-10-14
GRIREM ADVANCED MATERIALS CO LTD
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  • Summary
  • Abstract
  • Description
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  • Application Information

AI Technical Summary

Problems solved by technology

For example, U.S. Patent 5543216 discloses a preparation method for synthesizing cerium oxide particles. This method adjusts the pH value of the reactant to 8-9, and raises the temperature to 100-200°C under pressure. The particle size obtained is between 0.03-5um , the method is more complicated, the equipment is expensive, the particle size distribution is wide, and the polishing effect is not good
Chinese patent CN1821314 discloses a preparation method of ultrafine cerium oxide. After adding a surfactant to a cerium salt solution, the solution is first contacted with an alkaline substance to control the pH value of the reaction to generate a precipitate, and then the suspension is treated with oxalic acid Transform, control the pH value at the end of the reaction, finally filter, wash, and dry the precipitate, and the superfine cerium oxide ob...

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] Dissolve lanthanum and cerium sulfate in water to form a 1.5mol / L solution, put it into the reactor, and heat it to 40°C. Add the mixed solution of precipitant ammonium bicarbonate and ammonia water with a concentration of 1.0mol / L to the bottom solution at a rate of 2L / min; after the addition is completed, add the neodymium nitrate solution to the bottom at a rate of 2L / min solution; the temperature of the mixed mother liquor was raised to 80°C, and the stirring reaction was continued for 5 hours, so that the reaction was fully carried out, and a precipitate was obtained; the obtained precipitate was aged at 60°C for 24 hours; the precipitate was separated, collected, washed, and dried, that is The polishing powder precursor was obtained, and the powder was calcined at 900°C to obtain a mixed powder, passed through a 400-mesh sieve after wet ball milling, and centrifugally dried to obtain a polishing material with a core-shell structure, the particle size was 1.5um, the...

Embodiment 2

[0029] Its preparation process step is with example 1, and salt solution is the chloride of lanthanum, praseodymium, neodymium, and concentration is 1.0mol / L, and precipitation agent is the mixture of ammonium bicarbonate and ammonium carbonate, and concentration is 2.0mol / L, adds 1.5 mol / L after reaction. mol / L of cerium chloride. Add polyvinyl alcohol with a weight percentage of 8.0% to the mixed solution, react at 95°C for 4 hours, age at 50°C for 36 hours, precipitate at 1000°C for calcination, and go through jet mill crushing and sorting to obtain the average particle size It is 1.3um, the dispersion is 1.4, and the specific surface area is 4.56m 2 / g of polishing material with core-shell structure. The polishing powder is made into a 16% slurry to polish high-precision optical glass. The cutting force of the polishing powder product is 0.031mm / h, and the visual scratch is 1 / m 2 . The existing polishing powder is made into a 16% slurry to polish high-precision optical ...

Embodiment 3

[0031] Its preparation process steps are the same as Example 1, the rare earth salt solution is the chloride of cerium and lanthanum nitrate, the concentration is 0.9mol / L, and the precipitating agent is solid ammonium bicarbonate. Add 4% ammonium fluoride according to the weight percentage of polishing powder, react at 75°C for 6 hours, age at 50°C for 30 hours, calcinate the precipitate at 800°C, pass through a 300-mesh sieve after wet ball milling, and centrifuge and dry A polishing material with lanthanum cerium oxide as the core and lanthanum cerium fluoride as the shell is obtained.

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Abstract

The invention provides a polishing material with a nuclear shell structure and a preparation method thereof. The rare-earth polishing material is powder granules, the inner core of the rare-earth polishing material is an inorganic compound taking rare-earth oxide as a main body, and the shell is an inorganic compound containing the rare-earth oxide or/and fluoride. The polishing material comprises the following components according to the weight percentage: 50-99 of rare earth, 0.9-50 of other components and less than 0.1 of unavoidable impurities. The rare-earth polishing material has mean granule size of 0.1um-2.0um, the specific surface area after calcination at 900 DEG C of less than 15m/g, and the dispersity of less than 1.5. The obtained rare-earth polishing material has a positive cooperative function in the polishing process, a greater cutting function on a material with high hardness, an elastic buffer function on a material with lower hardness and higher cutting capability and does not generate scratches. The preparation method of the rare-earth polishing material is simple and is easy to realize industrialization.

Description

technical field [0001] The invention relates to a rare earth polishing material with a core-shell structure and a preparation method thereof, and belongs to the technical field of chemical preparation of rare earth powder materials. Background technique [0002] Since 1940, rare earth polishing powder began to replace iron oxide for glass polishing, and became one of the key process materials in the glass polishing process. Compared with traditional polishing powder, rare earth polishing powder has the advantages of fast polishing speed, high finish and long service life, and can change the polishing quality and operating environment. The two important performance parameters in the polishing process, the polishing speed and the quality of the polished surface (ie roughness), are related to the structure (single crystal, polycrystalline) and morphology (size, distribution and shape) of the polishing powder. Researchers have continuously developed various polishing powders, s...

Claims

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Application Information

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IPC IPC(8): C09G1/18C09G1/02C09K3/14
Inventor 韩业斌黄小卫张顺利龙志奇崔大立崔梅生王良士彭新林
Owner GRIREM ADVANCED MATERIALS CO LTD
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