DEVELOPMENT OF PLASMA-FACING COMPONENTS WITH FUNCTIONALLY GRADIENT LAYERS

被引:0
|
作者
MORIMOTO, M [1 ]
KUDOUGH, F [1 ]
ONOZUKA, M [1 ]
TSUNODA, H [1 ]
TOYODA, M [1 ]
机构
[1] MITSUBISHI HEAVY IND CO LTD,NISHI KU,YOKOHAMA 220,KANAGAWA,JAPAN
来源
FUSION TECHNOLOGY | 1994年 / 26卷 / 03期
关键词
D O I
10.13182/FST94-A40206
中图分类号
TL [原子能技术]; O571 [原子核物理学];
学科分类号
0827 ; 082701 ;
摘要
The use of functionally graded layers (FGLs) for plasma facing components (PFCs), owing to moderate or piecewise transition in material properties from low-Z surface materials to metal substrates, can provide reduction in thermal stresses, and also provide high thermal load resistance to PFCs.(1) This article deals with the comparison of high heat flux testing and thermal stress analysis results on PFCs. Thermal stress analyses confirmed the thermal loading test results.
引用
收藏
页码:503 / 506
页数:4
相关论文
共 50 条
  • [1] Development of functionally graded plasma-facing materials
    Ge, CC
    Li, JT
    Zhou, ZJ
    Cao, WB
    Shen, WP
    Wang, MX
    Zhang, NM
    Liu, X
    Xu, ZY
    JOURNAL OF NUCLEAR MATERIALS, 2000, 283 : 1116 - 1120
  • [2] DEVELOPMENT OF BERYLLIUM BONDS FOR PLASMA-FACING COMPONENTS
    FRANCONI, E
    CECCOTTI, GC
    MAGNOLI, L
    JOURNAL OF NUCLEAR MATERIALS, 1992, 191 : 493 - 498
  • [3] Development of doped graphites for plasma-facing components
    Paz, P
    García-Rosales, C
    Echeberria, J
    Balden, M
    Roth, J
    Behrisch, R
    FUSION ENGINEERING AND DESIGN, 2001, 56-57 : 325 - 330
  • [4] ITER plasma-facing components
    Merola, Mario
    Loesser, D.
    Martin, A.
    Chappuis, P.
    Mitteau, R.
    Komarov, V.
    Pitts, R. A.
    Gicquel, S.
    Barabash, V.
    Giancarli, L.
    Palmer, J.
    Nakahira, M.
    Loarte, A.
    Campbell, D.
    Eaton, R.
    Kukushkin, A.
    Sugihara, M.
    Zhang, F.
    Kim, C. S.
    Raffray, R.
    Ferrand, L.
    Yao, D.
    Sadakov, S.
    Furmanek, A.
    Rozov, V.
    Hirai, T.
    Escourbiac, F.
    Jokinen, T.
    Calcagno, B.
    Mori, S.
    FUSION ENGINEERING AND DESIGN, 2010, 85 (10-12) : 2312 - 2322
  • [5] THE NET DEVICE - PLASMA-FACING COMPONENTS
    不详
    FUSION ENGINEERING AND DESIGN, 1993, 21 : 213 - 293
  • [6] Plasma-Facing Components of the TRT Tokamak
    I. V. Mazul
    R. N. Giniyatulin
    A. A. Kavin
    N. V. Litunovskii
    A. N. Makhankov
    P. Yu. Piskarev
    V. N. Tanchuk
    Plasma Physics Reports, 2021, 47 : 1220 - 1237
  • [7] DEVELOPMENT OF ACTIVELY COOLED PLASMA-FACING COMPONENTS FOR TORE SUPRA
    Lipa, M.
    Schlosser, J.
    Escourbiac, F.
    FUSION SCIENCE AND TECHNOLOGY, 2009, 56 (03) : 1124 - 1149
  • [8] Erosion of plasma-facing components in ITER
    Federici, G
    Wuerz, H
    Janeschitz, G
    Tivey, R
    FUSION ENGINEERING AND DESIGN, 2002, 61-62 : 81 - 94
  • [9] Plasma-Facing Components of the TRT Tokamak
    Mazul, I., V
    Giniyatulin, R. N.
    Kavin, A. A.
    Litunovskii, N., V
    Makhankov, A. N.
    Piskarev, P. Yu
    Tanchuk, V. N.
    PLASMA PHYSICS REPORTS, 2021, 47 (12) : 1220 - 1237
  • [10] Overview of decade-long development of plasma-facing components at ASIPP
    Luo, G. -N.
    Liu, G. H.
    Li, Q.
    Qin, S. G.
    Wang, W. J.
    Shi, Y. L.
    Xie, C. Y.
    Chen, Z. M.
    Missirlian, M.
    Guilhem, D.
    Richou, M.
    Hirai, T.
    Escourbiac, F.
    Yao, D. M.
    Chen, J. L.
    Wang, T. J.
    Bucalossi, J.
    Merola, M.
    Li, J. G.
    NUCLEAR FUSION, 2017, 57 (06)
12345