Influence of Precursor Powder Fabrication Methods on the Superconducting Properties of Bi-2223 Tapes

Li Jun Cui; Ping Xiang Zhang; Guo Yan; Yong Feng; Xiang Hong Liu; Jian Feng Li; Xi Feng Pan; Sheng Nan Zhang; Xiao Bo Ma; Jin Shan Li

doi:10.1088/0256-307X/36/2/027401

Influence of Precursor Powder Fabrication Methods on the Superconducting Properties of Bi-2223 Tapes

Li Jun Cui, Ping Xiang Zhang, Guo Yan, Yong Feng, Xiang Hong Liu, Jian Feng Li, Xi Feng Pan, Sheng Nan Zhang, Xiao Bo Ma, Jin Shan Li

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Bi-2223 precursor powders are prepared by both oxalate co-precipitation (CP) and spray pyrolysis (SP) methods. The influence of fabrication methods on the superconducting properties of Bi-2223 tapes are systematically studied. Compared to the CP method, SP powder exhibits spherical particle before calcination and smaller particle size after calcinations with more uniform chemical composition, which leads to a lower reaction temperature during calcination process for Bi-2223 tapes. Meanwhile, the non-superconducting phases in SP powder are more uniformly distributed with smaller particle sizes. These features result in finer homogeneity of critical current in large-length of Bi-2223 tape, higher density of filaments and better texture after heat treatment. Therefore, the SP method could be considered as a better route to prepare precursor powder for large-length Bi-2223 tape fabrication.

Original language	English
Article number	027401
Journal	Chinese Physics Letters
Volume	36
Issue number	2
DOIs	https://doi.org/10.1088/0256-307X/36/2/027401
State	Published - 2019

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title = "Influence of Precursor Powder Fabrication Methods on the Superconducting Properties of Bi-2223 Tapes",

abstract = "Bi-2223 precursor powders are prepared by both oxalate co-precipitation (CP) and spray pyrolysis (SP) methods. The influence of fabrication methods on the superconducting properties of Bi-2223 tapes are systematically studied. Compared to the CP method, SP powder exhibits spherical particle before calcination and smaller particle size after calcinations with more uniform chemical composition, which leads to a lower reaction temperature during calcination process for Bi-2223 tapes. Meanwhile, the non-superconducting phases in SP powder are more uniformly distributed with smaller particle sizes. These features result in finer homogeneity of critical current in large-length of Bi-2223 tape, higher density of filaments and better texture after heat treatment. Therefore, the SP method could be considered as a better route to prepare precursor powder for large-length Bi-2223 tape fabrication.",

author = "Cui, {Li Jun} and Zhang, {Ping Xiang} and Guo Yan and Yong Feng and Liu, {Xiang Hong} and Li, {Jian Feng} and Pan, {Xi Feng} and Zhang, {Sheng Nan} and Ma, {Xiao Bo} and Li, {Jin Shan}",

note = "Publisher Copyright: {\textcopyright} 2019 IOP Publishing Ltd & London Mathematical Society.",

year = "2019",

doi = "10.1088/0256-307X/36/2/027401",

language = "英语",

volume = "36",

journal = "Chinese Physics Letters",

issn = "0256-307X",

publisher = "IOP Publishing Ltd.",

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TY - JOUR

T1 - Influence of Precursor Powder Fabrication Methods on the Superconducting Properties of Bi-2223 Tapes

AU - Cui, Li Jun

AU - Zhang, Ping Xiang

AU - Yan, Guo

AU - Feng, Yong

AU - Liu, Xiang Hong

AU - Li, Jian Feng

AU - Pan, Xi Feng

AU - Zhang, Sheng Nan

AU - Ma, Xiao Bo

AU - Li, Jin Shan

PY - 2019

Y1 - 2019

N2 - Bi-2223 precursor powders are prepared by both oxalate co-precipitation (CP) and spray pyrolysis (SP) methods. The influence of fabrication methods on the superconducting properties of Bi-2223 tapes are systematically studied. Compared to the CP method, SP powder exhibits spherical particle before calcination and smaller particle size after calcinations with more uniform chemical composition, which leads to a lower reaction temperature during calcination process for Bi-2223 tapes. Meanwhile, the non-superconducting phases in SP powder are more uniformly distributed with smaller particle sizes. These features result in finer homogeneity of critical current in large-length of Bi-2223 tape, higher density of filaments and better texture after heat treatment. Therefore, the SP method could be considered as a better route to prepare precursor powder for large-length Bi-2223 tape fabrication.

AB - Bi-2223 precursor powders are prepared by both oxalate co-precipitation (CP) and spray pyrolysis (SP) methods. The influence of fabrication methods on the superconducting properties of Bi-2223 tapes are systematically studied. Compared to the CP method, SP powder exhibits spherical particle before calcination and smaller particle size after calcinations with more uniform chemical composition, which leads to a lower reaction temperature during calcination process for Bi-2223 tapes. Meanwhile, the non-superconducting phases in SP powder are more uniformly distributed with smaller particle sizes. These features result in finer homogeneity of critical current in large-length of Bi-2223 tape, higher density of filaments and better texture after heat treatment. Therefore, the SP method could be considered as a better route to prepare precursor powder for large-length Bi-2223 tape fabrication.

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U2 - 10.1088/0256-307X/36/2/027401

DO - 10.1088/0256-307X/36/2/027401

M3 - 文章

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SN - 0256-307X

VL - 36

JO - Chinese Physics Letters

JF - Chinese Physics Letters

IS - 2

M1 - 027401

ER -

Influence of Precursor Powder Fabrication Methods on the Superconducting Properties of Bi-2223 Tapes

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