Title :
Improved J/sub c/ of multifilamentary Bi,Pb(2223)/Ag tapes by periodic pressing
Author :
Marti, F. ; Huang, Y.B. ; Witz, G. ; Passerini, R. ; Dhalle, M. ; Giannini, E. ; Bellingeri, E. ; Walker, E. ; Flukiger, R. ; Grasso, G.
Author_Institution :
Dept. de Phys. de la Matiere Condensee, Geneva Univ., Switzerland
fDate :
6/1/1999 12:00:00 AM
Abstract :
Critical current densities of multifilamentary Ag-sheathed Bi(2223) tapes up to about 35 000 A/cm/sup 2/ have been achieved at 77 K and self field for lengths of several meters using an improved route: periodic pressing. This corresponds to an increase by 30-40% compared to the values obtained for conventionally rolled tapes starting from the same powders. Several pressing steps have been introduced during the anneal instead of the only standard rolling step (based on previous studies performed on both mono- and multifilamentary tapes). In contrast to earlier attempts by pressing techniques, periodic pressing is a practical and scaleable process for the fabrication of long lengths of Bi(2223) conductor as the standard intermediate rolling step. Engineering critical current densities of 8 000 A/cm/sup 2/ have successfully been obtained for tapes with high filling factor (35%).
Keywords :
bismuth compounds; calcium compounds; critical current density (superconductivity); high-temperature superconductors; lead compounds; materials preparation; multifilamentary superconductors; silver; strontium compounds; superconducting tapes; 77 K; Ag-sheathed Bi(2223) tapes; BiPbSrCaCuO-Ag; HTSC; annealing; critical current densities; fabrication; high filling factor; multifilamentary Bi,Pb(2223)/Ag tapes; periodic pressing; self field; the standard intermediate rolling step; Annealing; Artificial intelligence; Ceramics; Critical current; Displacement control; Frequency; Hydraulic systems; Magnetic field measurement; Pressing; Shape;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
