Processing Parameters that Affect the Tolerable Bending Diameter of Reacted MgB2 Wires

Byeongha Yoo; Young Gyun Kim; Jiman Kim; Sehoon Jang; Duck Young Hwang; Jung Tae Lee; Yeon Suk Choi; Seungyong Hahn; Haigun Lee

doi:10.1007/s12540-019-00339-7

Processing Parameters that Affect the Tolerable Bending Diameter of Reacted MgB₂ Wires

Byeongha Yoo, Young Gyun Kim, Jiman Kim, Sehoon Jang, Duck Young Hwang, Jung Tae Lee, Yeon Suk Choi, Seungyong Hahn, Haigun Lee

Department of Materials Science and Engineering

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

2 Citations (Scopus)

Abstract

In this study, tolerable bending diameters of reacted MgB₂ wires fabricated to produce varying outer sheath materials, numbers of MgB₂ filaments, and sheath layer thickness were investigated. The result showed that the tolerable bending diameters of the MgB₂ wires with Cu, Cu–Ni, and Monel sheaths were the same. This implies that the sheath material strength of these wires does not affect the tolerable bending diameter. In addition, mono-filament wires were more vulnerable to bending strain than multi-filament wires due to their porous microstructure. An increase in the sheath layer thickness of the MgB₂ wires resulted in less degradation of the wires at high bending strains because the strain acting on the MgB₂ filaments was reduced by the thick sheath layer. This study generally confirmed that the sheath layer thickness of the MgB₂ wire is a key factor to increase the bending tolerance of the wire.

Original language	English
Pages (from-to)	1467-1476
Number of pages	10
Journal	Metals and Materials International
Volume	25
Issue number	6
DOIs	https://doi.org/10.1007/s12540-019-00339-7
Publication status	Published - 2019 Nov 1

Keywords

Bending diameter
Bending strain
Bending test
Magnesium diboride (MgB)
Sheath materials
Tolerable

ASJC Scopus subject areas

Condensed Matter Physics
Mechanics of Materials
Metals and Alloys
Materials Chemistry

Access to Document

10.1007/s12540-019-00339-7

Cite this

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title = "Processing Parameters that Affect the Tolerable Bending Diameter of Reacted MgB2 Wires",

abstract = "In this study, tolerable bending diameters of reacted MgB2 wires fabricated to produce varying outer sheath materials, numbers of MgB2 filaments, and sheath layer thickness were investigated. The result showed that the tolerable bending diameters of the MgB2 wires with Cu, Cu–Ni, and Monel sheaths were the same. This implies that the sheath material strength of these wires does not affect the tolerable bending diameter. In addition, mono-filament wires were more vulnerable to bending strain than multi-filament wires due to their porous microstructure. An increase in the sheath layer thickness of the MgB2 wires resulted in less degradation of the wires at high bending strains because the strain acting on the MgB2 filaments was reduced by the thick sheath layer. This study generally confirmed that the sheath layer thickness of the MgB2 wire is a key factor to increase the bending tolerance of the wire.",

keywords = "Bending diameter, Bending strain, Bending test, Magnesium diboride (MgB), Sheath materials, Tolerable",

author = "Byeongha Yoo and Kim, {Young Gyun} and Jiman Kim and Sehoon Jang and Hwang, {Duck Young} and Lee, {Jung Tae} and Choi, {Yeon Suk} and Seungyong Hahn and Haigun Lee",

note = "Funding Information: This work was supported by the Materials and Components Technology Development Program of KEIT (10053590, Development of MgB 2 wire and coil with a high critical current and long length for superconducting medical electric power equipment) and in part by the Korea Basic Science Institute under Grant D38614. Publisher Copyright: {\textcopyright} 2019, The Korean Institute of Metals and Materials.",

year = "2019",

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doi = "10.1007/s12540-019-00339-7",

language = "English",

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pages = "1467--1476",

journal = "Metals and Materials International",

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T1 - Processing Parameters that Affect the Tolerable Bending Diameter of Reacted MgB2 Wires

AU - Yoo, Byeongha

AU - Kim, Young Gyun

AU - Kim, Jiman

AU - Jang, Sehoon

AU - Hwang, Duck Young

AU - Lee, Jung Tae

AU - Choi, Yeon Suk

AU - Hahn, Seungyong

AU - Lee, Haigun

N1 - Funding Information: This work was supported by the Materials and Components Technology Development Program of KEIT (10053590, Development of MgB 2 wire and coil with a high critical current and long length for superconducting medical electric power equipment) and in part by the Korea Basic Science Institute under Grant D38614. Publisher Copyright: © 2019, The Korean Institute of Metals and Materials.

PY - 2019/11/1

Y1 - 2019/11/1

N2 - In this study, tolerable bending diameters of reacted MgB2 wires fabricated to produce varying outer sheath materials, numbers of MgB2 filaments, and sheath layer thickness were investigated. The result showed that the tolerable bending diameters of the MgB2 wires with Cu, Cu–Ni, and Monel sheaths were the same. This implies that the sheath material strength of these wires does not affect the tolerable bending diameter. In addition, mono-filament wires were more vulnerable to bending strain than multi-filament wires due to their porous microstructure. An increase in the sheath layer thickness of the MgB2 wires resulted in less degradation of the wires at high bending strains because the strain acting on the MgB2 filaments was reduced by the thick sheath layer. This study generally confirmed that the sheath layer thickness of the MgB2 wire is a key factor to increase the bending tolerance of the wire.

AB - In this study, tolerable bending diameters of reacted MgB2 wires fabricated to produce varying outer sheath materials, numbers of MgB2 filaments, and sheath layer thickness were investigated. The result showed that the tolerable bending diameters of the MgB2 wires with Cu, Cu–Ni, and Monel sheaths were the same. This implies that the sheath material strength of these wires does not affect the tolerable bending diameter. In addition, mono-filament wires were more vulnerable to bending strain than multi-filament wires due to their porous microstructure. An increase in the sheath layer thickness of the MgB2 wires resulted in less degradation of the wires at high bending strains because the strain acting on the MgB2 filaments was reduced by the thick sheath layer. This study generally confirmed that the sheath layer thickness of the MgB2 wire is a key factor to increase the bending tolerance of the wire.

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