Disclosed is a method of manufacturing a porous ceramic body, which includes: (S1) mixing silica powders having a particle size of 0.045˜0.5 mm, zircon flour and wax, thus preparing a ceramic mixture; (S2) placing the ceramic mixture into a mold, thus producing a green body; and (S3) sintering the g
Disclosed is a method of manufacturing a porous ceramic body, which includes: (S1) mixing silica powders having a particle size of 0.045˜0.5 mm, zircon flour and wax, thus preparing a ceramic mixture; (S2) placing the ceramic mixture into a mold, thus producing a green body; and (S3) sintering the green body at high temperature, thus obtaining a porous ceramic body, wherein the silica having a particle size of 0.1˜0.5 mm is contained in an amount of 50˜80 wt % based on the total weight of the porous ceramic body; and also which produces a bulk porous ceramic body having good strength and leaching properties with excellent dimensional stability and shape stability.
대표청구항▼
1. A method of manufacturing a porous ceramic body, comprising: (S1) mixing fused silica powders having a particle size of 0.045˜0.5 mm, zircon flour and wax, thus preparing a ceramic mixture;(S2) placing the ceramic mixture into a mold, thus producing a green body; and(S3) sintering the green body
1. A method of manufacturing a porous ceramic body, comprising: (S1) mixing fused silica powders having a particle size of 0.045˜0.5 mm, zircon flour and wax, thus preparing a ceramic mixture;(S2) placing the ceramic mixture into a mold, thus producing a green body; and(S3) sintering the green body at a high temperature, thus obtaining a porous ceramic body,wherein the fused silica powders having a particle size of 0.1˜0.5 mm are contained in an amount of 50˜80 wt % based on a total mass of the porous ceramic body,wherein in S1, the wax is a mixture comprising two kinds of wax having different melting points mixed at a weight ratio of 6:4˜9:1; andwherein in S1, the fused silica powders having a particle size of 0.045˜0.5 mm comprises: fused silica powders having a particle size of 0.2˜0.5 mm;fused silica powders having a particle size of 0.1˜0.2 mm;fused silica powders having a particle size of 0.149 mm; andfused silica powders having a particle size of 0.045 mm. 2. The method of claim 1, wherein in S1, the zircon flour has a particle size of 0.045 mm. 3. The method of claim 1, wherein in S1, the wax is contained in an amount of 5˜40 wt % based on a total mass of the ceramic mixture. 4. The method of claim 1, wherein in S1, the ceramic mixture comprises, based on a total mass thereof: 1˜15 wt % of fused silica powders having a particle size of 0.2˜0.5 mm;1˜40 wt % of fused silica powders having a particle size of 0.1˜0.2 mm;5˜40 wt % of fused silica powders having a particle size of 0.149 mm;5˜50 wt % of fused silica powders having a particle size of 0.045 mm;10˜50 wt % of zircon flour having a particle size of 0.045 mm; and5˜40 wt % of wax. 5. The method of claim 1, wherein in S1, the ceramic mixture further comprises an additive selected from the group consisting of alumina, silicon carbide, polyvinylalcohol, cellulose, polyvinylbutyral, acrylate and ethyl silicate. 6. The method of claim 1, wherein in S1, the wax is selected from the group consisting of paraffin wax, microcrystalline wax, polyolefin wax, beeswax, carnauba wax and mixtures thereof. 7. The method of claim 6, wherein in S1, the wax is a mixture comprising paraffin wax having a melting point of 70° C. and microcrystalline wax having a melting point of 82° C. mixed at a weight ratio of 8:2. 8. The method of claim 1, wherein S1 further comprises maintaining the ceramic mixture at a temperature of 50˜85° C., after preparing the ceramic mixture. 9. The method of claim 1, wherein in S3, the green body is sintered at a temperature of 1000˜1400° C. 10. The method of claim 9, wherein a holding time of sintering the green body is 2˜24 hr.
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이 특허에 인용된 특허 (8)
Gueckel, Christian, Catalyst with bimodal pore size distribution and the use thereof.
Allen, Timothy L.; Bryden, Todd R.; Howard, Kevin E.; Lakso, Steven R.; Lebaron, Peter C.; Lovelace, Jamie L.; Serafin, Juliana G.; Wallin, Sten A., Porous body precursors, shaped porous bodies, processes for making them, and end-use products based upon the same.
Bryden, Todd R.; Howard, Kevin E.; Lebaron, Peter C.; Wallin, Sten A., Porous body precursors, shaped porous bodies, processes for making them, and end-use products based upon the same.
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