Title :
Heat transfer and oxygen diffusion in Ag-clad BSCCO superconducting tapes
Author :
Phelan, P.E. ; Samant, R.N. ; Paluru, S.
Author_Institution :
Dept. of Mech. & Aerosp. Eng., Arizona State Univ., Tempe, AZ, USA
fDate :
6/1/1999 12:00:00 AM
Abstract :
The quality of Ag-clad BSCCO superconducting tapes is a function of their processing conditions. Two important processing parameters are the cooling rate from the annealing condition, and the oxygen partial pressure in the furnace. Although a link between oxygen content and critical current density has been established, apparently no attempts have been made to predict the temperature and oxygen content distributions within a Ag-clad BSSCO tape. This study presents a combined thermal and mass transfer model which enables the calculation of the oxygen content distribution, and the results indicate a slow cooling rate, and relatively high oxygen partial pressure, leading to a greater and more uniform oxygen concentration within the tape, and thus potentially superior superconducting properties.
Keywords :
bismuth compounds; calcium compounds; composite superconductors; critical current density (superconductivity); heat transfer; high-temperature superconductors; self-diffusion; silver; stoichiometry; strontium compounds; superconducting tapes; Ag; Ag-clad BiSrCaCuO superconducting tapes; BiSrCaCuO; HTSC; annealing condition; cooling rate; critical current density; heat transfer; high oxygen partial pressure; mass transfer model; oxygen content; oxygen content distributions; oxygen diffusion; oxygen partial pressure; processing conditions; slow cooling rate; superconducting properties; thermal model; Annealing; Bismuth compounds; Cooling; Furnaces; Heat transfer; Oxygen; Predictive models; Residual stresses; Superconducting films; Temperature;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
