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Magnetic field dependence of the critical current density for the bismuth-based bulk high-Tc superconductors

Journal Article


Abstract


  • Three types of bismuth-based bulk samples were prepared through uniaxial pressing at room temperature, hot isostatic pressing (HIP) and drawing and rolling. Transport current properties were characterized in a steady field up to 1.12 T at 77 K (T/Tc=0.75). The Josephson weak-link decoupling fields have been found to be 5 mT for the cold-pressed pellet and 30 mT for the HIPed pellet and the rolled tape. At the decoupling field the transport critical current density, Jc, drops 80% from 124 (OT) to 29 A cm-2 (5 mT) for the cold-pressed pellet, 80% from 582 (OT) to 126 A cm-2 (30 mT) for the HIPed sample and 50% from 6500 (0 T) to 2850 A cm-2 (30 mT) for the rolled tape. In the flux flow regime, where B is perpendicular to the c-axis a modified Kim's model Jc=(��/B0)/[(1+B/B0)]n can be used to describe the field dependence of the critical current density, Jc, in the field range 0.2-1.12 T. The effective upper critical fields were estimated to be 0.98, 1.54 and 1.94 T for the three types of samples, respectively. An adjustable range of Bc2 for bismuth-based bulk high Tc superconductors is given. Flux shear may operate in these materials. The prediction of this pinning mechanism is yielded from fitting the equation qualitatively. When B is parallel to the c-axis, the absence of strongly intragranular flux-pinning is emphasized by the poor flux flow regime for the rolled tape sample. �� 1992 Chapman & Hall.

Publication Date


  • 1992

Citation


  • Guo, S. J., Loberg, B., Dou, S. X., & Liu, H. K. (1992). Magnetic field dependence of the critical current density for the bismuth-based bulk high-Tc superconductors. Journal of Materials Science, 27(11), 3043-3049. doi:10.1007/BF01154117

Scopus Eid


  • 2-s2.0-34249835545

Start Page


  • 3043

End Page


  • 3049

Volume


  • 27

Issue


  • 11

Place Of Publication


Abstract


  • Three types of bismuth-based bulk samples were prepared through uniaxial pressing at room temperature, hot isostatic pressing (HIP) and drawing and rolling. Transport current properties were characterized in a steady field up to 1.12 T at 77 K (T/Tc=0.75). The Josephson weak-link decoupling fields have been found to be 5 mT for the cold-pressed pellet and 30 mT for the HIPed pellet and the rolled tape. At the decoupling field the transport critical current density, Jc, drops 80% from 124 (OT) to 29 A cm-2 (5 mT) for the cold-pressed pellet, 80% from 582 (OT) to 126 A cm-2 (30 mT) for the HIPed sample and 50% from 6500 (0 T) to 2850 A cm-2 (30 mT) for the rolled tape. In the flux flow regime, where B is perpendicular to the c-axis a modified Kim's model Jc=(��/B0)/[(1+B/B0)]n can be used to describe the field dependence of the critical current density, Jc, in the field range 0.2-1.12 T. The effective upper critical fields were estimated to be 0.98, 1.54 and 1.94 T for the three types of samples, respectively. An adjustable range of Bc2 for bismuth-based bulk high Tc superconductors is given. Flux shear may operate in these materials. The prediction of this pinning mechanism is yielded from fitting the equation qualitatively. When B is parallel to the c-axis, the absence of strongly intragranular flux-pinning is emphasized by the poor flux flow regime for the rolled tape sample. �� 1992 Chapman & Hall.

Publication Date


  • 1992

Citation


  • Guo, S. J., Loberg, B., Dou, S. X., & Liu, H. K. (1992). Magnetic field dependence of the critical current density for the bismuth-based bulk high-Tc superconductors. Journal of Materials Science, 27(11), 3043-3049. doi:10.1007/BF01154117

Scopus Eid


  • 2-s2.0-34249835545

Start Page


  • 3043

End Page


  • 3049

Volume


  • 27

Issue


  • 11

Place Of Publication