Investigation of ITER Use Internal-Sn Nb@@d3@Sn Superconducting Wire Through Irreversibility Temperature Measurement

By means of a SQUID magnetometer, the irreversibility temperatures and magnetization transitions of an ITER-type internal-Sn Nb@@d3@Sn superconducting wire were measured during warming and cooling cycles at a fixed magnetic field. The results obtained show that the irreversibility temperature T@@u*@(H) is strongly dependent on A15 phase composition and can be used to optimize the heat treatment process for the internal-Sn Nb@@d3@Sn wire. The A15 phase composition in internal-Sn Nb@@d3@Sn wire is temperature independent for full-time reaction. From T@@u*@(H) and magnetization transition analysis, the heat treatment condition of our ITER use wire is optimized as 675 degC/128 h, which results in the best A15 phase composition suitable for high-field application.