A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
METHOD FOR PRODUCING CERAMIC MULTILAYERED TUBE USED AS CLADDING FOR FUEL ELEMENT IN NUCLEAR POWER PLANT
The method includes forming an inner monolithic layer from crystals of beta phase stoichiometric silicon carbide on a carbon substrate in the form of a rod by chemical methylsilane vapor deposition in a sealed tubular hot-wall CVD reactor. The method further includes forming a central composite layer over the inner monolithic layer by twisting continuous beta phase stoichiometric silicon carbide fibers into tows, transporting the tows to a braiding machine, and forming a reinforcing thread framework. A pyrocarbon interface coating is built up by chemical methane vapor deposition in a sealed tubular hot-wall CVD reactor. Then, a matrix is formed by chemical methylsilane vapor deposition in the reactor. A protective outer monolithic layer is formed from crystals of beta phase stoichiometric silicon carbide over the central composite layer by chemical methylsilane vapor deposition in a CVD reactor. And then the carbon substrate is removed from the fabricated semi-finished product.
METHOD FOR PRODUCING CERAMIC MULTILAYERED TUBE USED AS CLADDING FOR FUEL ELEMENT IN NUCLEAR POWER PLANT
The method includes forming an inner monolithic layer from crystals of beta phase stoichiometric silicon carbide on a carbon substrate in the form of a rod by chemical methylsilane vapor deposition in a sealed tubular hot-wall CVD reactor. The method further includes forming a central composite layer over the inner monolithic layer by twisting continuous beta phase stoichiometric silicon carbide fibers into tows, transporting the tows to a braiding machine, and forming a reinforcing thread framework. A pyrocarbon interface coating is built up by chemical methane vapor deposition in a sealed tubular hot-wall CVD reactor. Then, a matrix is formed by chemical methylsilane vapor deposition in the reactor. A protective outer monolithic layer is formed from crystals of beta phase stoichiometric silicon carbide over the central composite layer by chemical methylsilane vapor deposition in a CVD reactor. And then the carbon substrate is removed from the fabricated semi-finished product.
METHOD FOR PRODUCING CERAMIC MULTILAYERED TUBE USED AS CLADDING FOR FUEL ELEMENT IN NUCLEAR POWER PLANT
KARPYUK LEONID ALEKSANDROVICH (author) / ORLOV VLADISLAV KONSTANTINOVICH (author) / IVANOV SERGEY IGOREVICH (author) / GLEBOV ALEXEY VLADIMIROVICH (author) / MAKAROV FYODOR VIKTOROVICH (author) / ZAKHAROV ROMAN GENNADYEVICH (author) / DZYUBINSKY IVAN ALEXANDROVICH (author) / PONOMARENKO ALEXANDER PAVLOVICH (author) / BAGDATYEV ALEXANDER DMITRIEVICH (author)
2022-11-10
Patent
Electronic Resource
English
| European Patent Office | 2024
| European Patent Office | 2017
Texture Analysis in Zircaloy Cladding Tube Material for Nuclear Fuel
| British Library Online Contents | 1994
SiC cladding tube preparation method and SiC cladding tube
| European Patent Office | 2024
Ceramic material for MAX-phase fuel cladding element, pipe fitting and preparation method thereof
| European Patent Office | 2023