| Autor: |
Asai, Koki, Yagai, Tsuyoshi, Banno, Nobuya |
| Zdroj: |
IEEE Transactions on Applied Superconductivity; August 2024, Vol. 34 Issue: 5 p1-5, 5p |
| Abstrakt: |
Grain refinement and performance improvements for Nb$_{\text{3}}$Sn superconducting wires are highly desired for realizing next-generation high-field magnets for the Future Circular Collider (FCC) project. The target performance is a non-Cu critical current density of 1500 A/mm2 at 4.2 K under a 16 T field. Hf addition to Nb, which leads to Nb$_{\text{3}}$Sn grain refinement, has attracted intensive interest from the viewpoint of applicability to conventional wire manufacturing. The grain-refinement effect of Hf addition is speculated to be due to promotion of Nb$_{\text{3}}$Sn phase nucleation, which is caused by an increase of nucleation sites such as dislocations or misorientations in the parent Hf-doped Nb; the deformation-induced fine microstructure remains even at the Nb$_{\text{3}}$Sn phase formation temperature. Nevertheless, our previous study on the addition of Hf–Ta to bronze-route Nb$_{\text{3}}$Sn wires did not reveal a substantial effect on grain refinement. This lack of effect might be attributed to a smaller Sn diffusion driving force in the case of the bronze route. Therefore, we here study the Nb$_{\text{3}}$Sn phase formation behavior in the case of a higher Sn diffusion driving force using tapes with a diffusion couple of Nb and high-Sn-content Sn–Cu alloy. We prepared samples with a diffusion couple of Nb–4at%Ta–1at%Hf / Sn–10at%Cu, Nb–2at%Ti–1at%Hf / Sn–10at%Cu and conducted microstructural and microchemical analyses to evaluate the formation of Nb$_{\text{3}}$Sn during the heat treatment. Grain refinement in Hf-doped Nb$_{\text{3}}$Sn wires was confirmed under a high Sn diffusion driving force. However, the grain refinement effect was weaker than the effect expected on the basis of previous works. |
| Databáze: |
Supplemental Index |
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