Progress Towards A Long Length Metallic Precursor Process For Multifilament Bi-2223 Composite Superconductors
IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY(1995)
Abstract
A process based on mental precursors has been developed for fabricating 361-filament Bi-2223 oxide superconductor - silver composite tapes with oxide and whole wire critical current densities of 20.8 kA/cm(2) and 3.74 kA/cm(2) at 77 K over 85 m (1 mu V/cm criterion). Fabrication of approximately 50 m lengths for a cummulative 1 km yield average oxide critical current densities of 15.2 kA/cm(2) and 11.9 kA/cm(2) using 1 mu V/cm and 10(-11) Omega cm criteria. Within tape Ic variability was less than 5% except for Ic drop-offs near the tape ends. The oxide superconductor exhibited a high degree of the required texture. A 1.12 T (at 4.2 K) instrumented magnet with a 2.5 cm bore was fabricated by a react- and-wind approach from the tapes and delivered to Oak Ridge National Laboratory for quench studies.
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Key words
Multifilamentary superconductors,Superconducting magnets,Critical current density,High temperature superconductors,Superconducting filaments and wires,Superconducting films,Fabrication,Superconductivity,Instruments,Boring
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