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Wear-resistant ceramic material and preparation method thereof

A wear-resistant ceramic and nanotechnology, applied in the field of ceramic materials, can solve the problems that ceramics cannot achieve the expected use effect, and achieve the effects of easy industrial production, good mechanical properties, and simple preparation methods

Active Publication Date: 2015-05-06
WUJIANG JIA BILLION ELECTRONICS TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

When the conditions of use are not met, ceramics will not be able to achieve the expected use effect

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] (1) Weigh 10kg of magnesium carbonate, 10kg of kaolin, 5kg of titanium diboride fibers with a diameter of 10 microns, 5kg of silicon carbide, 4kg of sodium bicarbonate, 6kg of antimony trioxide and 3kg of red mud, and add them to the high-pressure homogenizer, Mix well under 20.5Mpa;

[0031] (2) Add 65 kg of aluminum oxide with a particle size of 45 nanometers to the product of step 1 under an inert atmosphere, heat up to 700°C, and react for 1 hour;

[0032] (3) The product of step 2 is pressed into shape, heated to 1350°C at a heating rate of 5°C / min for firing, kept for 2 hours, and cooled to obtain a wear-resistant ceramic material.

[0033] The performance test results of the prepared wear-resistant ceramic materials are shown in Table 1.

Embodiment 2

[0035] (1) Weigh 15kg of magnesium carbonate, 11kg of kaolin, 8kg of titanium diboride fibers with a diameter of 15 microns, 8kg of silicon carbide, 3kg of sodium bicarbonate, 7kg of antimony trioxide and 5kg of red mud, and add them to the high-pressure homogenizer, Mix well under 21Mpa;

[0036] (2) Add 70 kg of aluminum oxide with a particle size of 50 nanometers to the product of step 1 under an inert atmosphere, heat up to 705°C, and react for 2 hours;

[0037] (3) The product of step 2 is pressed into shape, heated to 1350°C at a heating rate of 5°C / min for firing, kept for 2 hours, and cooled to obtain a wear-resistant ceramic material.

[0038] The performance test results of the prepared wear-resistant ceramic materials are shown in Table 1.

Embodiment 3

[0040] (1) Weigh 12kg of magnesium carbonate, 12kg of kaolin, 12kg of titanium diboride fibers with a diameter of 12 microns, 6kg of silicon carbide, 5kg of sodium bicarbonate, 5kg of antimony trioxide and 4kg of red mud, and add them to the high-pressure homogenizer, Mix well under 20.5Mpa;

[0041] (2) Add 65 kg of aluminum oxide with a particle size of 45 nm to the product of step 1 under an inert atmosphere, raise the temperature to 710°C, and react for 1 hour;

[0042] (3) The product of step 2 is pressed into shape, heated to 1350°C at a heating rate of 5°C / min for firing, kept for 2 hours, and cooled to obtain a wear-resistant ceramic material.

[0043] The performance test results of the prepared wear-resistant ceramic materials are shown in Table 1.

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Abstract

The invention discloses a wear-resistant ceramic material and a preparation method thereof. The wear-resistant ceramic material comprises the following components in parts by weight: 65-70 parts of nano aluminum oxide, 10-15 parts of magnesium carbonate, 10-12 parts of kaolin, 5-12 parts of titanium diboride fibers, 5-8 parts of silicon carbide, 3-5 parts of sodium hydrogen carbonate, 5-7 parts of antimonous oxide and 3-5 parts of red mud. The invention further provides a preparation method of the wear-resistant ceramic material. The preparation method comprises the following steps: (1) weighing 10-15 parts of magnesium carbonate, 10-12 parts of kaolin, 5-12 parts of titanium diboride fibers, 5-8 parts of silicon carbide, 3-5 parts of sodium hydrogen carbonate, 5-7 parts of antimonous oxide and 3-5 parts of red mud and adding all the components into a high pressure homogenizer and uniformly mixing; (2) adding 65-70 parts of fully ball-milled nano aluminum oxide under an inertial atmosphere into the product obtained in the step (1), and raising the temperature to 700-710 DEG C to react for 1-2 hours; and (3) compressing and molding the product obtained in the step (2), heating to 1300-1350 DEG C at a temperature raising speed of 5 DEG C / minute, firing, insulating fro 2-4 hours, and cooling to obtain the wear-resistant ceramic material.

Description

technical field [0001] The invention belongs to the field of ceramic materials, in particular to a wear-resistant ceramic material and a preparation method thereof. Background technique [0002] Wear-resistant ceramics are based on Al 2 o 3 As the main raw material, adding various components, special corundum ceramics are baked at high temperature, and then combined with special rubber and high-strength organic / inorganic binders. [0003] Ceramic materials manufactured by utilizing the special functions of ceramics on sound, light, electricity, magnetism, heat and other physical properties are called functional ceramics. There are many types of functional ceramics with different uses. For example, according to the difference in electrical properties of ceramics, electronic materials such as conductive ceramics, semiconductor ceramics, dielectric ceramics, and insulating ceramics can be made. The optical properties of ceramics can be used to manufacture solid-state lase...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/80C04B35/117C04B35/622
Inventor 陆全明
Owner WUJIANG JIA BILLION ELECTRONICS TECH
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