Abstract
The critical current density j\min{c}\max{ov} of multifilamentary Nb 3 Sn conductors depends on the diameter of the filaments. At low fields (less than about 12 T) j\min{c}\max{ov} increases with decreasing filament diameter because of the finer grain size. At high fields j\min{c}\max{ov} increases with increasing filament diameter. Measurements of the critical current under externally applied tensile stress revealed that changes of the internal compression of the Nb 3 Sn within the composite account for this effect. The larger the filament diameter, the smaller the compressive strain, the higher the upper critical field and therefore j\min{c}\max{ov} at high fields. The decrease of compressive strain with increasing filament size results from a decrease in the yield stress of the bronze which is caused by an increase in grain size of the bronze between the filaments.
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