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Ceramic grinding tool for low-temperature high-strength ceramic binder

A vitrified bond, high-strength technology, applied in abrasives, manufacturing tools, metal processing equipment, etc., can solve the problems that cannot meet the preparation requirements of new ceramic corundum abrasives, cannot increase the price, and affect the grinding effect, etc., and achieve the shape retention of the grinding wheel Good, less dressing times, high grinding efficiency

Inactive Publication Date: 2014-10-08
QINGDAO GUOHANG XIANGYU TECH SERVICE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The preparation process of new vitrified corundum abrasive tools with vitrified bond is basically the same as that of ordinary corundum abrasive tools with vitrified bond. However, due to the requirements of the structure and speed of use of new vitrified corundum abrasives, the traditional common vitrified bond can no longer meet the requirements of new ceramic corundum abrasives. Preparation requirements for corundum abrasives
On the one hand, the sintering temperature of traditional ceramic bond ordinary corundum abrasives is around 1250°C, while the new ceramic corundum abrasives will be affected by high temperature during high temperature firing, resulting in grain growth and destroying their original microstructure and performance. As a result, it loses or loses its superior characteristics in grinding and use, thereby affecting its proper grinding effect, so it should generally be fired at a temperature lower than 1000 ° C; on the other hand, the traditional ceramic bond ordinary corundum abrasive The use speed generally does not exceed 60m / s, and the use speed of the new ceramic corundum abrasive tools must meet the use speed requirements of 80-120m / s. Higher, and at the same time, the price can not increase too much compared with the traditional vitrified bond

Method used

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Embodiment 1

[0013] A low-temperature high-strength vitrified bond ceramic abrasive tool, comprising the following parts by weight: 15-30 parts of dextrin solution, 6-9 parts of closed-cell perlite, 21-40 parts of boron glass, and 3-4 parts of molybdenum disilicide , 5-10 parts of calcite, 3-12 parts of magnesite, 1-3 parts of silicate, 10-20 parts of potassium feldspar, 1-3 parts of potassium oxide, 5-20 parts of white feldspar, 20- 34 parts, 3-4 parts of carbide, 10-19 parts of yellow dextrin, 1-3 parts of calcium hydrogen phosphate, 20-40 parts of calcite, 5-9 parts of cryolite.

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PUM

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Abstract

The invention discloses a ceramic grinding tool for a low-temperature high-strength ceramic binder. The ceramic grinding tool for the low-temperature high-strength ceramic binder is characterized by comprising the following substances in parts by weight: 15-30 parts of dextrin liquor, 6-9 parts of closed cell perlite, 21-40 parts of borax glass, 3-4 parts of molybdenum disilicide, 5-10 parts of calcite, 3-12 parts of magnesite, 1-3 parts of silicate ester, 10-20 parts of potassium feldspar, 1-3 parts of potassium oxide, 5-20 parts of leptynite, 20-34 parts of agate, 3-4 parts of carbide, 10-19 parts of yellow dextrin, 1-3 parts of calcium hydrophosphate, 20-40 parts of calcite and 5-9 parts of cryolite. The ceramic grinding tool of the low-temperature high-strength ceramic binder, which is disclosed by the invention, has the beneficial effects of being sharp in abrasive particle, less in trimming times, capable of carrying out grinding with great cutting depth, great feed, heavy load and high efficiency, good in self-sharpening performance, low in grinding temperature, good in toughness, small in abrasion, high in durability and long in service life.

Description

technical field [0001] The invention relates to a low-temperature high-strength vitrified bond ceramic grinding tool. Background technique [0002] The new ceramic corundum abrasive is a high-purity corundum abrasive with fine crystal structure synthesized by unique ceramic technology. This kind of abrasive is synthesized by Sol-gel (sol-gel) process and sintered. Ordinary fused corundum abrasives are made of industrial alumina as raw material, melted in an electric arc furnace, crushed, ground, and classified to obtain corundum abrasives of different particle size levels. The preparation methods of the two abrasives are different, so they are quite different in structure and performance. Specifically in [0003] As follows: [0004] In terms of microstructure, ordinary fused corundum abrasives only contain a small amount of single crystal (sometimes a single crystal) in each abrasive grain, and the crystal size is about 50 μm or larger, while each abrasive grain of the n...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/16B24D3/14
Inventor 王爱国
Owner QINGDAO GUOHANG XIANGYU TECH SERVICE
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