Preparation method of high-strength silicon carbide porous ceramic
A technology of porous ceramics and silicon carbide, which is applied in the field of preparation of silicon carbide carrier materials, can solve the problems of limiting the application of porous ceramics or honeycomb ceramics, low porosity, and reduced mechanical strength of porous ceramics or honeycomb ceramics, and achieves moderate porosity and mechanical strength. The effect of high strength and simple production process
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Embodiment 1
[0021] Example 1. A method for preparing high-strength silicon carbide porous ceramics, with a weight percentage of 49.5% α-silicon carbide powder, 49.4% β-silicon carbide powder, 0.1% aluminum diboride and 1.0% poly Carbosilane constitutes the raw material, and the following steps are performed in sequence:
[0022] 1) Add the above raw materials to an organic dispersion solvent composed of ethanol, xylene, and n-hexane in a volume ratio of 1:4:5, ball-milled and mixed for 24 hours, and dried at 40°C for 24 hours to obtain a silicon carbide composite powder; The material-to-liquid ratio of the raw material to the organic dispersion solvent is 1g / 3ml;
[0023] 2) Dry-press forming the silicon carbide composite powder at 50MPa to obtain a silicon carbide green body;
[0024] 3) Put the above-mentioned silicon carbide body into a vacuum pressureless sintering furnace, firstly heat up to 1500°C for vacuum degassing for 4 hours, then heat up to 2200°C and sinter under argon protection f...
Embodiment 2
[0026] Example 2. A method for preparing high-strength silicon carbide porous ceramics, with a weight percentage of 88.65% α-silicon carbide powder, 9.85% β-silicon carbide powder, 0.5% aluminum diboride and 1.0% poly Carbosilane constitutes the raw material, and the following steps are performed in sequence:
[0027] 1) Add the above raw materials to an organic dispersion solvent composed of ethanol, xylene, and n-hexane in a volume ratio of 1:3:6, ball-milled and mixed for 24 hours, and dried at 40°C for 24 hours to obtain a silicon carbide composite powder; The material-to-liquid ratio of the raw material to the organic dispersion solvent is 1g / 5ml;
[0028] 2) Dry-press forming the silicon carbide composite powder at 50MPa to obtain a silicon carbide green body;
[0029] 3) Put the above-mentioned silicon carbide body in a vacuum pressureless sintering furnace, firstly heat up to 1500°C for vacuum degassing for 3 hours, then heat up to 2200°C and sinter under argon protection fo...
Embodiment 3
[0031] Embodiment 3. A method for preparing high-strength silicon carbide porous ceramics, consisting of 68.95% α-silicon carbide powder, 29.55% β-silicon carbide powder, 1.0% aluminum diboride and 0.5% by weight percentage Polycarbosilane constitutes the raw material, and the following steps are carried out in sequence:
[0032] 1) Add the above raw materials to an organic dispersion solvent composed of ethanol, xylene, and n-hexane in a volume ratio of 1:3.5:5.5, ball-milled and mixed for 24 hours, and dried at 40°C for 24 hours to obtain a silicon carbide composite powder; The material-to-liquid ratio of the raw material to the organic dispersion solvent is 1g / 5ml;
[0033] 2) Dry-press forming the silicon carbide composite powder at 50MPa to obtain a silicon carbide green body;
[0034] 3) Put the above-mentioned silicon carbide body in a vacuum pressureless sintering furnace, firstly heat up to 1500°C for vacuum degassing for 5 hours, then heat up to 2200°C and sinter under the...
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