Self-field instabilities in high-$J_{c}$ Nb$_{3}$Sn strands: the effect of copper RRR

Bordini, B

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Publication date

January 2009

DOI

10.5170/CERN-2009-001.51

Publisher

CERN

Abstract

High critical current density (Jc) Nb$_{3}$Sn conductor is the best candidate for next generation high field (> 10 T) accelerator magnets. Although very promising, state of the art high-Jc Nb$_{3}$Sn strands suffer of magneto-thermal instabilities that can severely limit the strand performance. Recently it has been shown that at 1.9 K the self field instability is the dominating mechanism that limits the performance of strands with a low (<10) Residual Resistivity Ratio (RRR) of the stabilizing copper. At CERN several state of the art high–Jc Nb$_{3}$Sn wires have been tested at 4.2 K and 1.9 K to study the effects on strand self-field instability of: RRR and strand impregnation with stycast. To study the effect of the RRR value on magneto-...

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Self-field instabilities in high-$J_{c}$ Nb$_{3}$Sn strands: the effect of copper RRR

Abstract

Extracted data

Self-field instabilities in high-$J_{c}$ Nb$_{3}$Sn strands: the effect of copper RRR

Abstract

Extracted data

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