Abstract
We have studied the influence of nanometer SiC particles on the flux pinning and the magnetization critical current density J cm of Ag-sheathed (Bi,Pb) 2Sr 2Ca 2Cu 3O x superconducting tapes. The results show that below 40 K SiC particles up to 0.5 wt.% introduce additional flux-pinning centres, and enhance J cm to different extent dependent on the temperature and applied magnetic field. For the tapes with SiC addition up to 0.5 wt.%, the magnetization critical current density J cm at 5 K in applied fields up to 50 kOe is twice that of the tape without SiC, for both H∥ c and H∥ ab. A study of the magnetization decay shows that tape with 0.15 wt.% nanometer SiC particles has a reduced flux-creep rate and increased pinning potential compared with the tape without SiC. The enhanced pinning properties can be attributed to the small SiC particles dispersed in the superconducting matrix and to the secondary defects at the interface between SiC particles and the superconducting matrix created by the introduction of the SiC particles.
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