Field and temperature dependencies of critical current on industrial Nb3Sn strands

A comparative study on the effects of heat treatment, especially, the duration of the A15 reaction temperature plateau on the strain dependence of the critical current for an internal-tin processed Nb 3 Sn strand has been carried out. The strain dependence of the critical current is measured by a va

IN some previous papers ~ 3 by this author certain properties of a Nb3Sn hollow cylinder are reported. Additionally, the temperature dependence of the trapped field was investigated as this gives several relations to the Anderson-Kim theory. For conversion of the values to be measured into electrica

THE author has recorded the decrease of a field trapped in a Nb3Sn hollow cylinder with increasing temperature, and found the trapped field to be approximately proportional to (1 -T/Te). In the range of field strength examined, the relation ~z = J~(H + Bo) was followed approximately; the resulting q

Strain dependence of/~ of bronze-processed Nb-Hf/Cu-Sn-Ga superconductors (namely Nb3Sn superconductors fabricated with starting composite consisting of a Nb-Hf alloy core and a Cu-Sn-Ga sheath) and that of Cu-Sn-Ga/Nb-Hf superconductors (Nb3Sn superconductors fabricated with starting composite cons

Pulsed magnetic field loss measurements have been performed on special V3Ga filament superconductors, which are known to have very high critical current densities, and on a Nb3Sn filament superconductor. The dependence of the hysteresis losses on the diffusion heat treatment parameters for the V3Ga

The eects of niobium content in the Cu±Nb microcomposite on the mechanical property and the axial tensile or transverse compressive stress/strain characteristics of the critical current I c in a bronze processed Nb 3 Sn multi®lament superconducting wire with the Cu±Nb microcomposite were evaluated a