Applications of superconducting magnets in Japan

Superconducting magnets operating in a pulsed field mode are exposed to magnetomechanical, thermomechanical and purely mechanical stresses. Since most materials incorporated in the magnet, such as the composite conductor, the insulation, the impregnants and the reinforcements, are strained to the li

A simple qualitative model is proposed to explain the fast initial change of the magnetic field of superconducting magnets which operate in the persistent mode. Using this model the additional component of the transport current which is induced by the decaying screening currents can be represented.

One of the most important thermofluid processes encountered in internally cooled superconducting magnets is that of quenching. Numerical simulation of the quench propagation involves accurately modelling a moving boundary layer at the quench front. Due to the highly non-linear nature of the quench p

A device is described which measures the energy losses in superconducting magnets. It is excited by alternating current, and is based on the use of a Hall probe as a wattmeter. The signal from the probe, proportional to the power of the losses, integrated over a cycle of current change, corresponds