Analysis for quench of superconducting magnets including the induced current effect

This paper presents a study of the thermal eects on quench performance for several large Hadron collider (LHC) single aperture short dipole models. The analysis is based on the temperature pro®le in a superconducting magnet evaluated after a quench. Peak temperatures and temperature gradients in the

Recent results of experimental investigations show that during the current-induced destruction of superconductivity in cylindrical samples a non-azimuthal component of the magnetic induction arises. This "autoparamagnetic effect" is observable both in type I and type II superconductors. Assuming a

A cable-in-conduit-conductor (CICC) consists of superconducting cable, copper, supercritical helium and conduit. To keep the operating temperature of superconducting cable lower than its current sharing temperature, the supercritical helium is forced flow through the CICC. The supercritical helium t

Organic insulators, such as polyimide, epoxy resins and fibre reinforced epoxies, are irradiated in the fission reactor at about 5 K and the mechanical properties are measured in liquid helium and in liquid nitrogen without warm up. At very low temperatures, the materials are completely brittle. Af