Influence of Al Composition Thickness on Critical Current Density in Transformation-Processed <inline-formula> <tex-math notation="TeX">$\hbox{Nb}_{3}\hbox{Al}$</tex-math></inline-formula> Superconductors

Abstract: The influence of the Al layer thickness on the critical current density J c of transformation-processed Nb 3 Al superconductors was investigated. The Al layer thickness in the jerry-roll filaments of precursor wires was varied from 120 to 250 nm; the Nb layer thickness is proportional to the Al thickness, keeping the Nb-Al composition ratio to 3. The rapid heating and quenching (RHQ) operation condition was varied within a range of the conditions to form the ductile body-centered cubic (BCC) Nb-Al phase. The R… Show more

“…If vacancy aggregation occurs, holes or dislocation loops would be generated in the crystal. These simple or complex defects will form pinning sites in Nb 3 Al, which will have important impact on its superconductivity and mechanical properties [21,22]. Diffusion in ordered intermetallic compounds can be accomplished by interstitial atoms and vacancies.…”

The effect of antisite defects on the mechanical and dynamic stability of Nb₃Al

“…If vacancy aggregation occurs, holes or dislocation loops would be generated in the crystal. These simple or complex defects will form pinning sites in Nb 3 Al, which will have important impact on its superconductivity and mechanical properties [21,22]. Diffusion in ordered intermetallic compounds can be accomplished by interstitial atoms and vacancies.…”

The effect of antisite defects on the mechanical and dynamic stability of Nb₃Al

Influence of Isostatic Pressure on the Superconducting Performance of Nb₃Al Prepared by Low‐Temperature Sintering

Effect of Joule heating current on phase formation and superconducting properties based on Nb3Al for applications in nuclear fusion magnet energy