Title :
Characteristics of an "overload component" for low-Tc superconducting winding systems
Author :
Yoshida, S. ; Biggins, S.W. ; Ravikumar, K.V. ; Frederking, T.H.K.
Author_Institution :
Dept. of Chem. Eng., California Univ., Los Angeles, CA, USA
fDate :
6/1/1995 12:00:00 AM
Abstract :
Small Nb/Ti-Cu prototype superconducting coils have been wound using LBL-supplied wire, which has been normally applied to Rutherford cabled dipoles. The studies are being conducted in the context of planning versions of toroidal winding systems for an eventual conversion of the normal windings of an intermediate size system, such as the 1994 UCLA Tokamak, to superconducting coils. At this time initial data have been collected and-a novel quench inducing device (QID) has been tested. The magnet field intensities generated by the prototype magnet were measured and compared with the design values. Quench propagation has been investigated including stability behavior of the magnet. At low currents, a quenched domain close to the inner winding layer was found to be stationary, not propagating into the magnet during runs which did not encounter a severe quench.<>
Keywords :
Tokamak devices; copper alloys; niobium; plasma toroidal confinement; power cable testing; power cables; quenching (thermal); superconducting cables; superconducting coils; superconducting magnets; titanium alloys; windings; Nb-TiCu; Tokamak; design; low-T/sub c/ superconducting winding; magnet field intensities; overload component characteristics; quench inducing device; quench propagation; stability behavior; superconducting coils; toroidal winding systems; Magnetic domains; Niobium; Prototypes; Superconducting cables; Superconducting coils; Superconducting filaments and wires; Superconducting magnets; Tokamaks; Toroidal magnetic fields; Wounds;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
