Title :
Fabrication and performance of Nb3Sn Rutherford-type cable with Cu added as a separate component
Author :
Coccoli, M. ; Scanlan, R.M. ; Calvi, M. ; Caspi, S. ; Chiesa, L. ; Hafalia, R. ; Higley, H.C. ; Dietderich, D.R. ; Gourlay, S.A. ; Lietzke, A. ; McInturff, A.D. ; Sabbi, G.
Author_Institution :
CERN, Geneva, Switzerland
fDate :
6/1/2004 12:00:00 AM
Abstract :
From the standpoint of overall conductor cost, it is desirable to minimize the amount of Cu that is co-processed with the superconductor during strand fabrication. We are investigating several approaches for fabricating multistrand cables in which the Cu is added at the final, i.e., cabling, stage of manufacture. These include mixed strand Rutherford-type cables with pure Cu strands cabled together with superconductor strands that have a low volume fraction of Cu, Cu added as a core to a Rutherford-type cable, and Cu strip added to the surface of the cable. Results on fabrication of several alternate types of Nb3Sn cables are presented. The more promising types of mixed strand and cored cables are being evaluated in short sample and small magnet tests. These results will be presented and the performance will be compared with conventional Rutherford cables where the Cu is an integral component of the superconductor strand.
Keywords :
copper; multifilamentary superconductors; niobium alloys; superconducting cables; tin alloys; Cu; Cu minimization; Cu strands; Cu strip; Nb3Sn; Nb3Sn cable; Rutherford-type cable; conductor cost; cored cables; magnet protection; magnet tests; mixed strand cables; multistrand cable fabrication; separate component addition; superconductor strands; Conductors; Costs; Fabrication; Magnetic cores; Manufacturing; Niobium; Strips; Superconducting cables; Superconducting magnets; Tin; $hboxNb_; Copper added as a separate component; Rutherford-type cables; hboxSn$; magnet protection; mixed strand cables;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2004.830342
