Zirconia-stabilized multi-filamentary niobium-tin superconducting wire

Assignee

• General Electric Company · US

Inventors

• Mark Gilbert Benz · Burnt Hills, US
• Theodore Evenden · Pattersonville, US
• Judson Sloan Marte · Wynantskill, US
• Thomas Robert Raber · East Berne, US

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH10N60/20

Abstract

A multi-filament superconducting wire in which the filaments comprise zirconia-stabilized ultra-fine grain Nb3Sn. The superconducting wire is formed by wire-drawing a preform comprising a metallic matrix and at least one niobium alloy rod having zirconium and oxygen in solid solution and heat treating the drawn wire in the presence of tin to yield at least one continuous filament comprising ultra-fine grain Nb3Sn having semi-coherent ZrO2 precipitates disposed therein. The ZrO2 precipitates serve to stabilize the ultra-fine grain microstructure of the Nb3Sn at temperatures up to 1100° C. and allows Nb3Sn to maintain the ultra-fine grain microstructure when heat treated at temperatures that are greater than those previously used. By using higher temperatures to form Nb3Sn, the time required for heat treatment can be significantly reduced.