Stability of composite superconductors with high resistive barriers

An experimental study of the existence conditions of a normal zone in a superconductor, containing high thermal and electrical contact resistance between the superconductor and the stabilizing normal metal, was carried out. The measurements conducted with a model short sample yielded the dependence

equipotential lines obtained experimentally in the electrolytic tank using a narrow probe.l, 2 An alternating voltage of several tens (or hundreds) of Hz and amplitude U --100 to 200 V is applied to the electrodes in the tank containing water electrolyte, to avoid effects due to polarization of the

The stability of superconductors with respect to thermal disturbances is determined by many factors: external conditions, properties of the composite, and nature of the heat exchange with the environment. To simulate the thermal processes mathematically, it was necessary to consider non-linear heat

The thermal stability of composite superconductors with uniformly distributed current under composite finite transverse heat conduc tion has been investigated within the continuous medium model. The critical disturbance energies which specify the upper limit of allowed heat generation uniformly dist