Critical Current Density and Current Transfer Length of Multifilamentary [Formula Omitted] Strands of Various Design

In this paper, a series of high-performing powder-in-tube [Formula Omitted] strands have been prepared. Transport voltage-current measurements were performed to determine the effects of C doping and strand geometry such as filament numbers. The best [Formula Omitted] for our samples was [Formula Omi...

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Veröffentlicht in:	IEEE transactions on applied superconductivity 2013-06, Vol.23 (3), p.6200204-6200204
Hauptverfasser:	Li, G. Z, Reddy, K. M, Zwayer, J. B, Kuldell, M. A, Susner, M. A, Yang, Y, Sumption, M. D, Yue, J. J, Rindfleisch, M. A, Tomsic, M. J, Thong, C. J, Collings, E. W
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Sprache:	eng
Schlagworte:	Correlation Filaments Nickel base alloys Niobium Strands Superconductivity Transport Wire
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container_title	IEEE transactions on applied superconductivity
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creator	Li, G. Z Reddy, K. M Zwayer, J. B Kuldell, M. A Susner, M. A Yang, Y Sumption, M. D Yue, J. J Rindfleisch, M. A Tomsic, M. J Thong, C. J Collings, E. W
description	In this paper, a series of high-performing powder-in-tube [Formula Omitted] strands have been prepared. Transport voltage-current measurements were performed to determine the effects of C doping and strand geometry such as filament numbers. The best [Formula Omitted] for our samples was [Formula Omitted] at 4.2 K, 7 T, for a strand using B powder with 3% C addition. The current transfer length was also measured for [Formula Omitted] short wires with Nb chemical barrier and Monel outer sheath. The current transfer length ranged from 2 to 12 mm, and had a correlation with the filament numbers.
doi_str_mv	10.1109/TASC.2012.2230293
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Z ; Reddy, K. M ; Zwayer, J. B ; Kuldell, M. A ; Susner, M. A ; Yang, Y ; Sumption, M. D ; Yue, J. J ; Rindfleisch, M. A ; Tomsic, M. J ; Thong, C. J ; Collings, E. W</creator><creatorcontrib>Li, G. Z ; Reddy, K. M ; Zwayer, J. B ; Kuldell, M. A ; Susner, M. A ; Yang, Y ; Sumption, M. D ; Yue, J. J ; Rindfleisch, M. A ; Tomsic, M. J ; Thong, C. J ; Collings, E. W</creatorcontrib><description>In this paper, a series of high-performing powder-in-tube [Formula Omitted] strands have been prepared. Transport voltage-current measurements were performed to determine the effects of C doping and strand geometry such as filament numbers. The best [Formula Omitted] for our samples was [Formula Omitted] at 4.2 K, 7 T, for a strand using B powder with 3% C addition. The current transfer length was also measured for [Formula Omitted] short wires with Nb chemical barrier and Monel outer sheath. 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subjects	Correlation Filaments Nickel base alloys Niobium Strands Superconductivity Transport Wire
title	Critical Current Density and Current Transfer Length of Multifilamentary [Formula Omitted] Strands of Various Design
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