Title :
Preparation factor to enhance Jc (15,000 A/cm2) of Bi-2223 sintered bulk
Author :
Yoshizawa, Shuji ; Haseyama, Shuetsu ; Murakami, Norihmi
Author_Institution :
Adv. Mater. R&D Center, Meisei Univ., Tokyo, Japan
fDate :
3/1/2001 12:00:00 AM
Abstract :
Coprecipitate precursor was adopted in this experiment to facilitate synthesis in the calcination reaction. Coprecipitate powder was calcined on a silver base plate instead of an alumina plate. Al impurity content in the calcined powder decreased below 10 ppm, and 770 ppm of Ag was contained in the calcined powder. The calcined powder was pressed and then sintered at 850°C in the air with intermediate pressing by cold isostatic press (CIP) method. The critical current density (Jc) of the sintered bulk increased to be 15,000 A/cm 2 with the three times of CIP and succeeding sintering. Adding Ag2O to the coprecipitate deteriorated superconductivity of the sintered bulk. It is suggested that in the powder calcined on the Ag base plate Ag molecules evaporate from the plate, diffuse into the grain boundary, and finally improve the weak links during heat-treatment
Keywords :
bismuth compounds; calcium compounds; critical current density (superconductivity); grain boundaries; heat treatment; high-temperature superconductors; lead compounds; powder technology; sintering; strontium compounds; 850 degC; Ag; Al impurity content; Bi-2223 sintered bulk; BiPbSrCaCuO; HTSC; alumina plate; calcination reaction; calcined powder; cold isostatic press; coprecipitate precursor; critical current density; grain boundary; heat-treatment; intermediate pressing; preparation factor; silver base plate; superconductivity; synthesis; weak links; Calcination; Critical current density; Grain boundaries; Impurities; Powders; Pressing; Silver; Superconducting materials; Superconductivity; Telephony;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
