Title :
Reversible Strain Response of Critical Current in Differently Processed GdBCO Coated Conductor Tapes Under Magnetic Fields
Author :
Shin, H.S. ; Dedicatoria, M.J. ; Gorospe, A. ; Suwa, T. ; Oguro, H. ; Awaji, S.
Author_Institution :
Dept. of Mech. Design Eng., Andong Nat. Univ., Andong, UK
Abstract :
In this study, the reversible response of Ic with uniaxial strain in differently processed GdBCO coated conductor tapes with different substrates has been investigated under self field and magnetic field conditions at 77 K. Higher irreversible strain limit, εirr was observed in those samples with stainless steel substrate. Additional brass lamination to the Cu-stabilized samples produced enhancement of both εirr and endurable load limit. However, no significant widening of the Ic/Ic0-tensile strain window with brass addition was observed in the case of samples having stainless steel substrate. Furthermore, under magnetic field, the Ic degradation behavior was independent on the kind of substrate material, but varied with the kind of manufacturing process adopted. The GdBCO samples showed different Ic peak positions and degradation behavior depending on the level of magnetic field applied.
Keywords :
barium compounds; critical currents; electromechanical effects; gadolinium compounds; high-temperature superconductors; GdBCO coated conductor tapes; GdBaCuO; brass addition; brass lamination; critical current; degradation behavior; irreversible strain limit; load limit; magnetic field condition; magnetic field level; manufacturing process; peak positions; reversible strain response; self field condition; stainless steel substrate; substrate material; temperature 77 K; tensile strain window widening; uniaxial strain; Conductors; Critical current; Integrated circuits; Magnetic fields; Steel; Strain; Substrates; Coated conductor (CC); GdBCO; critical current; magnetic field; strain effect; substrate;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2012.2232960
