Title :
Plasma-sprayed beryllium for ITER
Author :
Castro, R.G. ; Stanek, P.W. ; Elliott, K.E. ; Youchison, D.L. ; Watson, R.D. ; Walsh, D.S.
Author_Institution :
Los Alamos Nat. Lab., NM, USA
fDate :
30 Sep-5 Oct 1995
Abstract :
Plasma-spray technology is under investigation as a method for producing high thermal conductivity beryllium coatings for use in magnetic fusion applications. Recent investigations have focused on optimizing the plasma-spray process for depositing beryllium coatings on damaged beryllium surfaces. Of particular interest has been optimizing the processing parameters to maximize the through-thickness thermal conductivity of the beryllium coatings. Experimental results will be reported on the use of secondary H2 gas additions to improve the melting of the beryllium powder and negative transferred-arc cleaning to prepare beryllium surfaces prior to depositing beryllium. Information will also be presented on thermal fatigue tests which were performed on beryllium coated ISX-B beryllium limiter tiles using 10 sec cycle times with 60 sec cooldowns and an International Thermonuclear Experimental Reactor (ITER) relevant divertor heat flux slightly in excess of 5 MW/ml
Keywords :
beryllium; fusion reactor limiters; fusion reactors; plasma arc spraying; thermal stress cracking; Be; H2; ISX-B limiter tiles; ITER; International Thermonuclear Experimental Reactor; damaged surfaces; divertor heat flux; high thermal conductivity coatings; magnetic fusion applications; negative transferred-arc cleaning; plasma-sprayed Be; secondary gas additions; thermal fatigue tests; through-thickness thermal conductivity; Cleaning; Coatings; Fatigue; Magnetic flux; Performance evaluation; Plasma applications; Plasma materials processing; Powders; Testing; Thermal conductivity;
Conference_Titel :
Fusion Engineering, 1995. SOFE '95. Seeking a New Energy Era., 16th IEEE/NPSS Symposium
Conference_Location :
Champaign, IL
Print_ISBN :
0-7803-2969-4
DOI :
10.1109/FUSION.1995.534247
