Several techniques to form artifical high critical current density sup
erconducting Nb-Ti nanostructures have been reported. A drawback to vi
rtually all of these techniques is that they require fabrication strai
ns of 30 or more to reduce the second phase pinning center to the opti
mum 1-10 nm size at which critical current densities of 10(3)-10(4)A/M
M2 are obtained. Here we describe a powder metallurgy process that yie
lds 6020 A/MM2 at 2 T and 1470 A/MM2 at 5 T for an alloy with an upper
critical field of approximately 8 T within the same strain space (app
roximately 13) employed in the conventional Nb-Ti fabrication process.