The quench of a superconducting cable containing a defect and subjected to
a current increase is studied. The cable is represented by a model which co
nsists of a strand with a local decrease in the critical current I-c and th
e rest of the cable lumped together. It is assumed that the quench takes pl
ace when the electric field in the defect reaches the instability level. An
important feature of the process is the noticeable portion of current expe
lled from the defect to the rest of the cable prior to the quench. It is sh
own that given the strong inequality in the strand currents during the ramp
, the influence of the defect on the quench current is proportional to I-c(
4). This criterion is applied to the problem of copper separation in the tr
iplets of the ITER cables. (C) 1998 Elsevier Science B.V. All rights reserv
ed.