Characterization and heat flux testing of beryllium coatings on Inconel for JET ITER-like wall project

被引:24
|
作者
Hirai, T. [1 ]
Linke, J.
Sundelin, P.
Rubel, M.
Kuehnlein, W.
Wessel, E.
Coad, J. P.
Lungu, C. P.
Matthews, G. F.
Pedrick, L.
Piazza, G.
机构
[1] Assoc EURATOM FZJ, Forschungszentrum Julich, D-52425 Julich, Germany
[2] Assoc EURATOM VR, Alfven Lab, S-10044 Stockholm, Sweden
[3] UKAEA Euratom Fus Assoc, Culham Sci Ctr, Abingdon OX14 3DB, Oxon, England
[4] EURATOM, MEdC, Natl Inst Lasers Plasma & Radiat Phys, Bucharest, Romania
[5] EFDA, CSU, Culham Sci Ctr, Abingdon OX14 3DB, Oxon, England
来源
PHYSICA SCRIPTA | 2007年 / T128卷
基金
英国工程与自然科学研究理事会;
关键词
D O I
10.1088/0031-8949/2007/T128/032
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
In order to perform a fully integrated material test, JET has launched the ITER-like wall project with the aim of installing a full metal wall during the next major shutdown. The material foreseen for the main chamber wall is bulk Be at the limiters and Be coatings on inconel tiles elsewhere. R&D process comprises global characterization ( structure, purity etc) of the evaporated films and testing of their performance under heat loads. The major results are (i) the layers have survived energy loads of 20 MJ m(-2) which is significantly above the required level of 5 - 10 MJ m(-2), (ii) melting limit of beryllium coating would be at the energy level of 30 MJ m(-2), (iii) cyclic thermal load of 10 MJ m(-2) for up to 50 cycles have not induced any noticeable damage such as flaking or detachment.
引用
收藏
页码:166 / 170
页数:5
相关论文
共 50 条
  • [21] Movement of liquid beryllium during melt events in JET with ITER-like wall
    Sergienko, G.
    Arnoux, G.
    Devaux, S.
    Matthews, G. F.
    Nunes, I.
    Riccardo, V.
    Sirinelli, A.
    Huber, A.
    Brezinsek, S.
    Coenen, J. W.
    Mertens, Ph
    Philipps, V.
    Samm, U.
    PHYSICA SCRIPTA, 2014, T159
  • [22] Overview of the ITER-like wall project
    Matthews, G. F.
    Edwards, P.
    Hirai, T.
    Kear, M.
    Lioure, A.
    Lomas, P.
    Loving, A.
    Lungu, C.
    Maier, H.
    Mertens, P.
    Neilson, D.
    Neu, R.
    Pamela, J.
    Philipps, V.
    Piazza, G.
    Riccardo, V.
    Rubel, M.
    Ruset, C.
    Villedieu, E.
    Way, M.
    PHYSICA SCRIPTA, 2007, T128 : 137 - 143
  • [23] Study of physical and chemical assisted physical sputtering of beryllium in the JET ITER-like wall
    Brezinsek, S.
    Stamp, M. F.
    Nishijima, D.
    Borodin, D.
    Devaux, S.
    Krieger, K.
    Marsen, S.
    O'Mullane, M.
    Bjoerkas, C.
    Kirschner, A.
    NUCLEAR FUSION, 2014, 54 (10)
  • [24] Power handling of the JET ITER-like wall
    Arnoux, G.
    Balboa, I.
    Clever, M.
    Devaux, S.
    De Vries, P.
    Eich, T.
    Firdaouss, M.
    Jachmich, S.
    Lehnen, M.
    Lomas, P. J.
    Matthews, G. F.
    Mertens, Ph
    Nunes, I.
    Riccardo, V.
    Ruset, C.
    Sieglin, B.
    Valcarcel, D. F.
    Wilson, J.
    Zastrow, K-D
    PHYSICA SCRIPTA, 2014, T159
  • [25] The influence of an ITER-like wall on disruptions at JET
    de Vries, P. C.
    Baruzzo, M.
    Hogeweij, G. M. D.
    Jachmich, S.
    Joffrin, E.
    Lomas, P. J.
    Matthews, G. F.
    Murari, A.
    Nunes, I.
    Puetterich, T.
    Reux, C.
    Vega, J.
    PHYSICS OF PLASMAS, 2014, 21 (05)
  • [26] Overview of the JET ITER-like wall divertor
    Widdowson, A.
    Alves, E.
    Baron-Wiechec, A.
    Barradas, N. P.
    Catarino, N.
    Coad, J. P.
    Corregidor, V.
    Garcia-Carrasco, A.
    Heinola, K.
    Koivuranta, S.
    Krat, S.
    Lahtinen, A.
    Likonen, J.
    Mayer, M.
    Petersson, P.
    Rubel, M.
    Van Boxel, S.
    Abhangi, M.
    Abreu, P.
    Aftanas, M.
    Afzal, M.
    Aggarwal, K. M.
    Aho-Mantila, L.
    Ahonen, E.
    Aints, M.
    Airila, M.
    Albanese, R.
    Alegre, D.
    Alessi, E.
    Aleynikov, P.
    Alfier, A.
    Alkseev, A.
    Allan, P.
    Almaviva, S.
    Alonso, A.
    Alper, B.
    Alsworth, I.
    Alves, D.
    Ambrosino, G.
    Ambrosino, R.
    Amosov, V.
    Andersson, F.
    Andersson Sunden, E.
    Angelone, M.
    Anghel, A.
    Anghel, M.
    Angioni, C.
    Appel, L.
    Apruzzese, G.
    Arena, P.
    NUCLEAR MATERIALS AND ENERGY, 2017, 12 : 499 - 505
  • [27] Calorimetry of the JET ITER-Like Wall components
    Devaux, S.
    Arnoux, G.
    Corre, Y.
    Gardarein, J-L.
    Gaspar, J.
    Jacquet, P.
    Marcotte, F.
    Matthews, G.
    Beaumont, P.
    Cramp, S.
    Dalley, S.
    Kinna, D.
    Horton, A.
    Lomas, P.
    Mertens, Ph.
    Riccardo, V.
    Valcarcel, D.
    JOURNAL OF NUCLEAR MATERIALS, 2013, 438 : S1208 - S1211
  • [28] The ITER-like ICRH launcher project for JET
    Durodié, F
    Agarici, G
    Amarante, G
    Baity, FW
    Beaumont, B
    Brémond, S
    Chappuis, P
    Damiani, C
    Fanthome, J
    Goulding, RH
    Hosea, J
    Jones, GH
    Kaye, A
    Lamalle, PU
    Loesser, GD
    Lorenz, A
    Mead, M
    Messineo, MA
    Monakhov, I
    Nelson, B
    Nightingale, M
    Paméla, J
    Portafaix, C
    Riccardo, V
    Semeraro, L
    Talarico, C
    Turker, E
    Vulliez, K
    Walden, A
    Walton, R
    Wilson, JR
    Wouters, P
    RADIO FREQUENCY POWER IN PLASMAS, 2003, 694 : 98 - 101
  • [29] Engineering challenges of the JET ITER-like Wall
    Riccardo, V.
    JOURNAL OF NUCLEAR MATERIALS, 2009, 390-91 : 895 - 899
  • [30] An insight on beryllium dust sources in the JET ITER-like wall based on numerical simulations
    Uccello, Andrea
    Gervasini, Gabriele
    Ghezzi, Francesco
    Lazzaro, Enzo
    Borodin, D.
    Borodkina, I
    Douai, D.
    Huber, A.
    Jepu, I
    Terranova, D.
    Widdowson, A.
    PLASMA PHYSICS AND CONTROLLED FUSION, 2020, 62 (06)
12345