Forced chemical vapor infiltration of tubular geometries: Modeling, design, and scale-up | Zendy

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Forced chemical vapor infiltration of tubular geometries: Modeling, design, and scale-up

Author(s) -

D. P. Stinton,

T. M. Besmann,

W. M. Matlin

Publication year - 1995

Language(s) - English

Resource type - Reports

DOI - 10.2172/115399

Subject(s) - materials science , chemical vapor infiltration , heat exchanger , silicon carbide , heat transfer , composite material , composite number , boiler (water heating) , ceramic , ceramic matrix composite , combustion , infiltration (hvac) , mechanical engineering , nuclear engineering , waste management , engineering , mechanics , chemistry , physics , organic chemistry

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