Mt. Naus et al., The influence of the starting Cu-Sn phase on the superconducting properties of subsequently reacted internal-Sn Nb3Sn conductors, IEEE APPL S, 11(1), 2001, pp. 3569-3572
We have studied the reaction conditions and properties of a high-Sn, intern
al-Sn Nb3Sn conductor whose overall Cu-Sn composition was Cu-29at.%Sn. By a
djusting the mixing heat treatment during which the Cu and Sn interdiffuse
prior to A15 reaction, it is possible to substantially surround the Nb fila
ments with alpha and/or epsilon -phase Cu-Sn, It does not seem possible, ho
wever, to homogeneously mix the Cu and Sn prior to A15 formation. The T,dis
tributions, measured both by SQUID and heat capacity, showed no dependence
on significantly different mixing heat treatments. Magnetization measuremen
ts at 4.2 K and 12 K also showed that there were no significant differences
in the H*, H-c2 and J(c) (as indicated by Deltam). This implies that the c
omposition and reaction behavior of the A15 phase is independent of the Cu-
Sn phase in contact with the Nb filament prior to the reaction heat treatme
nt and that scoping experiments on high-Sn, high-J(c) internal-gn conductor
s can be considerably simplified, Our studies suggest a new Cu-Nb-Sn interm
etallic phase with a composition of Cu-23at, %Nb-62at. %Sn.