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Break filter using a silicon carbide porous body and manufacturing method of the break filter
A silicon carbide porous body includes a skeletal structure formed by a plurality of silicon carbide particles bonded to each other, a plurality of pores formed by the skeletal structure, neck parts formed by surface-contacting of adjacent silicon carbide particles, and an average pore size is larger than 3 μm and equal to or smaller than 9 μm, and a porosity ranges from 35% to 55%. A break filter using the silicon carbide porous body enables high performance of collection of particles, prevention of soaring up of particles, and shortening of a restoration time from the depressurized state of the chamber to the atmospheric state.
Break filter using a silicon carbide porous body and manufacturing method of the break filter
A silicon carbide porous body includes a skeletal structure formed by a plurality of silicon carbide particles bonded to each other, a plurality of pores formed by the skeletal structure, neck parts formed by surface-contacting of adjacent silicon carbide particles, and an average pore size is larger than 3 μm and equal to or smaller than 9 μm, and a porosity ranges from 35% to 55%. A break filter using the silicon carbide porous body enables high performance of collection of particles, prevention of soaring up of particles, and shortening of a restoration time from the depressurized state of the chamber to the atmospheric state.
Break filter using a silicon carbide porous body and manufacturing method of the break filter
FUKUOKA SEIICHI (author) / WATANABE HIROKI (author)
2021-04-13
Patent
Electronic Resource
English
| European Patent Office | 2019
| European Patent Office | 2019
European Patent Office | 2020