Development of large current superconductors using high performance Nb3Sn strand for ITER

摘要

In the ITER model coil tests, degradations of the critical current were observed in Nb3Sn cable-in-conduit conductors when a large transverse electromagnetic force was applied to them. Both mass production technique of strand having high critical current enough to recover the degradation and also trial fabrication of the ITER-TF cable and conduit section were successfully performed. These results demonstrate feasibility of fabrication of the TF conductor using the high performance Nb3Sn strands. In addition, critical current degradation by spatially periodic transverse load was both experimentally and numerically studied. The simulation results show that the transverse resistance among the filaments is significantly small compared to that calculated from bronze resistivity. It is explained by the effect of superconducting current across the filament cross-section. This current however disappears when a large bending strain is applied to the strand, resulting in deterioration of the transverse resistance. It suggests that small degradation of the TF model coil (TFMC) conductor is not attributed to sufficiently low resistance among filaments as is expected in the optimized design of the ITER conductor but high resistance of the TFMC strand critical current against the transverse load. On the other hand, the developed strand has almost the same resistance against the transverse load as the TFMC strand. Therefore, the small degradation of the TF conductor, i.e., stable operation of the TF conductor is preliminarily anticipated. (C) 2007 Elsevier B.V. All rights reserved.