Current Distribution in Superconducting Multistrands for AC Use before and after Quenching

Abstract

A superconducting multistranded cable is used to realize high current capacity for AC use. The critical current value of the cable is reported to be less than the simple summation of individual critical current value of each strand. The causes for such a degradation of the critical current value have not been revealed. This paper investigates the current distribution in multistrands before and after their quenching by using 7-strand superconducting cable and 7×7 cable. The following experimental results are derived: (1) The quenching is initiated at one strand in the cable, (2) The current in the quenched strand is transferred into the other strands, (3) An avalanche of quenching is induced among the strands, (4) The central strand is quenched finally among the strands. The critical current values of the 7- and 7×7- stranded cables are also measured. These values are in good agreement with the predicted values based on the mutual inductance among the strands. It is concluded that the unbalance of the current distribution in the superconducting multistrands can be one of the promising causes for the degradation of the critical current value.