Title of article
Thick boron carbide coatings for protection of tokamak first wall and divertor
Author/Authors
Buzhinskij، نويسنده , , O.I. and Semenets، نويسنده , , Yu.M.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1999
Pages
18
From page
343
To page
360
Abstract
A review of characteristics of various types of boron carbide coatings considered as candidate materials for protection of tokamak inner surfaces against high energy heat fluxes is presented. Such coatings are produced by various methods: chemical vapor deposition by means of chloride and fluoride techniques, gas conversion, plasma spray and reaction-sintering. Contrary to pure carbon materials, B4C has much lower chemical and high-temperature sputtering, is capable to oxygen gettering and lower hydrogen recycling. In contrast to thin boronization films, the thick coatings can resist high heat fluxes such as in tokamak divertors. Comparative analysis shows that coatings produced by the diffusion methods, such as fluoride CVD and gas conversion, are more resistent to heat loads, and one of the most promising candidates are the fluoride CVD coatings.
Keywords
Divertor , Boron Carbide , tokamak , High heat flux , First wall
Journal title
Fusion Engineering and Design
Serial Year
1999
Journal title
Fusion Engineering and Design
Record number
2365546
Link To Document