Influence of grain size and upper critical magnetic field on global pinning force of bronze-processed Nb3Sn compound

order to know the dependency of global pinning force of Nb,Sn compound on grain 'size and upper critical magnetic field, the global pinning force was measured at 3--l 5 T using bronze-processed multifilamentary composites.

The grain size and upper critical magnetic field were varied by two types of annealing treatment: one is the isothermal annealing at 873. 973 and 1073 K up to 1730 ks and another is the two-stage annealing (low temperature annealing to form fine grains at 873 K for 1730 ks + high temperature annealing to raise upper critical magnetic field at 1073 K up to 18 ks). In the case of isothermal annealing treatment, both of grain size and upper critical magnetic field increased with increasing annealing temperature and time except for the annealing treatments at high temperature for prolonged times. In the case of two-stage annealing, both of them increased with second stage annealing time. The increase in grain size led to decrease in the pinning force but the increase in upper critical magnetic field to increase in it. From the analysis of the present data based on the Suenaga's speculation concerning with the density of pinning site and the Kramer's equation, it was suggested that the pinning force is, to a first approximation, proportional to the product of inverse grain size and (I -h)'h "' in the present magnetic field of 3-t 5 T where h is the reduced magnetic field.