Development of Artificial Pinning Center NbTi multifilamentary superconductors for commercial applications

Since the mid-1980's various researchers have been developing artificial Pinning Center NbTi superconducting composites. Supercon has developed a novel approach that utilizes pure niobium and titanium as starting materials, and forms the alloy with a diffusion heat treatment during processing,...

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Veröffentlicht in:	IEEE Transactions on Magnetics 1996-07, Vol.32 (4), p.2764-2767
Hauptverfasser:	Wong, T., Frost, D., Renaud, C.V., Rudziak, M.K., Wong, J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Billets Conducting materials Conductors ELECTRIC CONDUCTORS FABRICATION MAGNETIC FLUX MATERIALS SCIENCE Multifilamentary superconductors NIOBIUM ALLOYS Niobium compounds PHYSICS Sheet materials SUPERCONDUCTING CABLES SUPERCONDUCTING COMPOSITES SUPERCONDUCTING DEVICES Superconducting materials TITANIUM ALLOYS Titanium compounds
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container_title	IEEE Transactions on Magnetics
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creator	Wong, T. Frost, D. Renaud, C.V. Rudziak, M.K. Wong, J.
description	Since the mid-1980's various researchers have been developing artificial Pinning Center NbTi superconducting composites. Supercon has developed a novel approach that utilizes pure niobium and titanium as starting materials, and forms the alloy with a diffusion heat treatment during processing, while retaining enough normal material to act as the pinning sites. This APC process has been demonstrated in fine filamentary binary composites, large conductors for low field applications, and in ternary (NbTiTa) composites. The latest developments will be covered in this paper.
doi_str_mv	10.1109/20.511447
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subjects	Billets Conducting materials Conductors ELECTRIC CONDUCTORS FABRICATION MAGNETIC FLUX MATERIALS SCIENCE Multifilamentary superconductors NIOBIUM ALLOYS Niobium compounds PHYSICS Sheet materials SUPERCONDUCTING CABLES SUPERCONDUCTING COMPOSITES SUPERCONDUCTING DEVICES Superconducting materials TITANIUM ALLOYS Titanium compounds
title	Development of Artificial Pinning Center NbTi multifilamentary superconductors for commercial applications
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