Author :
Sugimoto, M. ; Isono, T. ; Nunoya, Y. ; Koizumi, N. ; Nakajima, H. ; Kato, T. ; Matsukawa, M. ; Hamada, K. ; Matsui, K. ; Nishijima, G. ; Tsuchiya, Y. ; Sawada, K. ; Takahashi, Y. ; Ando, T. ; Tsuji, H. ; Ichihara, T. ; Minato, T. ; Sasaki, T.
Abstract :
The central solenoid (CS) model coil program is in progress with an international collaboration under the frame of the ITER-EDA. The purpose of the CS insert coil is to test the performance of the ITER-CS conductor. The CS insert coil is installed in the bore of the CS model coil and tested at a magnetic flux density of 13 T. The installation work is underway with the inner and outer module of the CS model coil. The superconducting characteristics of the CS conductor, the critical current and the current sharing temperature are evaluated under the operating load. The AC loss characteristics of the conductor are also evaluated under pulsed magnetic field. The fabrication of the CS insert coil was completed on May 1999. The winding tools and the results of the winding of CS insert coil are reported. The heat treatment for Nb/sub 3/Sn processing was performed successfully with no SAGBO (stress accelerated grain boundary oxidation). The procedure of the heat treatment is also reported.
Keywords :
critical currents; fusion reactor design; fusion reactor materials; heat treatment; superconducting coils; superconducting magnets; 13 T; AC loss; ITER-EDA; Nb/sub 3/Sn; central solenoid insert fabrication; critical current; current sharing temperature; fusion reactors; heat treatment; model coil program; pulsed magnetic field; superconducting characteristics; Boring; Conductors; Critical current; Fabrication; Heat treatment; International collaboration; Magnetic flux density; Solenoids; Superconducting coils; Testing;
