evaluation of the cool-down behaviour of iter fw beryllium tiles for an early failure detection

evaluation of the cool-down behaviour of iter fw beryllium tiles for an early failure detection

;Thomas Weber;Andreas Bürger;Karsten Dominiczak;Gerald Pintsuk
american business law journal 2016 Vol. 9 pp. 109-115
131
weber2016nuclearevaluation

Abstract

The design of the first wall in ITER foresees several hundred thousand beryllium tiles, which are bonded to the water-cooled CuCrZr supporting structure. Due to the nature of a Tokamak reactor this bonding is faced to thermal fatigue. Since the failure of a single tile might already have a major impact on the operability of ITER, comprehensive high heat flux tests are performed on prototypes prior to the acceptance of manufacturing procedures. For a deeper understanding of the temperature curves, which were and will be measured by IR devices of these first wall prototypes, thermo-mechanical FEM simulations shall demonstrate the possibilities of an early bonding failure detection. Hereby, the maximum temperatures for each cycle as well as the cool-down behaviour are the input data.

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0x95644003c57E6F55A65596E3D9Eac6813e3566dA
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154749
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10.1016/j.nme.2016.08.009
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