NIST High Temp. Superconducting Materials (HTS) Database

NIST High Temp. Superconducting Materials (HTS) Database:

NIST Standard Reference Database 62

Last Update to Data Content: 1996

DOI: https://doi.org/10.18434/T4KP8J

Bibliographic Information

Title: Dependence of Critical Current Density on Microstructures in Superconducting Bi(Pb)-Sr-Ca-Cu-O Wires
Author(s): T. Kanai, T. Kamo, and S. Matsuda
Publication: Superconductor Science and Technology Volume: 4 Issue: Not Available Year: 1991 Page(s): 207-211
Editor(s): Not Available
Publisher: IOP Publishing Ltd
Language: English
Notes: Not Available
Keywords: Material Specification, Critical Current Density

Materials and Properties

Material Specification for Bi:2223; [Bi(Pb)-Sr-Ca-Cu-O] Process: Solid State Reaction
Notes: "Preparation of the tape specimens was based on a powder-in-tube method. The mixture of oxide powders with a composition of Bi_1.84Pb_0.34Sr_1.9Ca_2.0Cu_3.1O_x was calcined twice at 800 °C for 10 h. Silver tubes, filled with the powder, were processed by drawing and rolling to give a 0.3 mm thick tape. The tape was annealed at three different temperatures, i.e. 825 °C, 834 °C, and 843 °C for 100 h. After this annealing, pressing at 50 kg/mm² and annealing at the same temperature were repeated twice."
Formula: Bi_1.84Pb_0.34Sr_1.9Ca₂Cu_3.1O_x
Informal Name: Bi:2223
Chemical Family: Bi(Pb)-Sr-Ca-Cu-O
Chemical Class: Oxide
Structure Type: Polycrystalline
Manufacturer: In House
Commercial Name: In House
Production Date:
Lot Number:
Production Form:

Critical Current Density for Bi:2223; [Bi(Pb)-Sr-Ca-Cu-O]

Sintering Temperature (°C)	Field Direction ()	Temperature (K)	Magnetic Field (T)	Critical Current Density (kA/cm²)
834	Parallel	20	0.2	4095
834	Parallel	20	0.3	3556
834	Parallel	20	0.5	2947
834	Parallel	20	1.0	2121
825	Parallel	20	0.0	3556
825	Parallel	20	0.1	2812
825	Parallel	20	0.3	1842
825	Parallel	20	0.5	1600
825	Parallel	20	1.0	1265
843	Parallel	20	0.0	2948
843	Parallel	20	0.0	2448
843	Parallel	20	0.1	1943
843	Parallel	20	0.3	1413
843	Parallel	20	0.5	1242
843	Parallel	20	1.0	9636
834	Parallel	60	0.0	2560
834	Parallel	60	0.0	1931
834	Parallel	60	0.1	1389
834	Parallel	60	0.3	1000
834	Parallel	60	0.5	829
834	Parallel	60	1.0	596
843	Parallel	60	0.0	5381
843	Parallel	60	0.0	4259
843	Parallel	60	0.3	3258
843	Parallel	60	0.5	3018
843	Parallel	60	1.0	2270
825	Parallel	60	0.0	1202
825	Parallel	60	0.0	9553
825	Parallel	60	0.0	5759
825	Parallel	60	0.1	3810
825	Parallel	60	0.3	2101
825	Parallel	60	0.5	1678
825	Parallel	60	1.0	1283
834	Perpendicular	20	0.0	2635
834	Perpendicular	20	0.3	2101
834	Perpendicular	20	0.5	1924
834	Perpendicular	20	1.0	1692
825	Perpendicular	20	0.0	3312
825	Perpendicular	20	0.0	2755
825	Perpendicular	20	0.0	2293
825	Perpendicular	20	0.0	1663
825	Perpendicular	20	0.3	1209
825	Perpendicular	20	0.5	1107
825	Perpendicular	20	1.0	9298
843	Perpendicular	20	0.0	1515
843	Perpendicular	20	0.0	1205
843	Perpendicular	20	0.3	1006
843	Perpendicular	20	0.5	921
843	Perpendicular	20	0.5	773
834	Perpendicular	60	0.0	2683
834	Perpendicular	60	0.0	2024
834	Perpendicular	60	0.0	1100
834	Perpendicular	60	0.1	792
834	Perpendicular	60	0.3	546
834	Perpendicular	60	0.4	394
834	Perpendicular	60	1.0	164
843	Perpendicular	60	0.0	1048
843	Perpendicular	60	0.1	324
843	Perpendicular	60	0.3	194
843	Perpendicular	60	0.5	106
825	Perpendicular	60	0.0	6814
825	Perpendicular	60	0.0	2875
825	Perpendicular	60	0.1	1869
825	Perpendicular	60	0.3	1107
825	Perpendicular	60	0.4	1258

Measurement Method: Transport current
"The transport critical current measurements were performed in the temperature range 77-4.2K with a 1µV cm^-1 criterion. The magnetic field was applied parallel or perpendicular to the tape surface and perpendicular to the current flow up to 1 T."

Cautions: Evaluated Data
Data were digitized from Figure 7 of the paper.