High critical current density in MgB2/Fe wires

Y. Feng; G. Yan; Y. Zhao; X. J. Wu; A. K. Pradhan; X. Zhang; C. F. Liu; X. H. Liu; L. Zhou

doi:10.1088/0953-2048/16/6/304

High critical current density in MgB₂/Fe wires

Y. Feng, G. Yan, Y. Zhao, X. J. Wu, A. K. Pradhan, X. Zhang, C. F. Liu, X. H. Liu, L. Zhou

科研成果: 期刊稿件 › 文章 › 同行评审

14 引用（Scopus）

摘要

High-quality monofilamentary MgB₂ wires with Fe sheath were fabricated by the powder-in-tube (PIT) method at ambient pressure. The phase compositions, microstructure features and flux pinning properties are investigated by using x-ray diffractometer. SEM. TEM and a standard four-probe technique. It is found that MgB₂ has no reaction with Fe. The results indicate that MgB₂ wires are dense and only MgB₂ and few MgO phases exist in the core area. MgB₂/Fe wires exhibit very high transport critical current densities of 1.43 × 10⁵ A cm^-2 (4.2 K, 4 T), 2.8 × 10⁴ A cm^-2 (4.2 K, 6 T), 3.72 × 10⁴ A cm^-2 (15 K, 4 T) and 2.34 × 10⁴ A cm^-2 (25 K, 3 T). The maximum flux pinning force shows a peak at 4 T at 4.2 K, suggesting strong pinning at high fields. The reasons for the large J_c in the sample was also discussed.

源语言	英语
页（从-至）	682-684
页数	3
期刊	Superconductor Science and Technology
卷	16
期	6
DOI	https://doi.org/10.1088/0953-2048/16/6/304
出版状态	已出版 - 6月 2003
已对外发布	是

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title = "High critical current density in MgB2/Fe wires",

abstract = "High-quality monofilamentary MgB2 wires with Fe sheath were fabricated by the powder-in-tube (PIT) method at ambient pressure. The phase compositions, microstructure features and flux pinning properties are investigated by using x-ray diffractometer. SEM. TEM and a standard four-probe technique. It is found that MgB2 has no reaction with Fe. The results indicate that MgB2 wires are dense and only MgB2 and few MgO phases exist in the core area. MgB2/Fe wires exhibit very high transport critical current densities of 1.43 × 105 A cm-2 (4.2 K, 4 T), 2.8 × 104 A cm-2 (4.2 K, 6 T), 3.72 × 104 A cm-2 (15 K, 4 T) and 2.34 × 104 A cm-2 (25 K, 3 T). The maximum flux pinning force shows a peak at 4 T at 4.2 K, suggesting strong pinning at high fields. The reasons for the large Jc in the sample was also discussed.",

author = "Y. Feng and G. Yan and Y. Zhao and Wu, {X. J.} and Pradhan, {A. K.} and X. Zhang and Liu, {C. F.} and Liu, {X. H.} and L. Zhou",

year = "2003",

month = jun,

doi = "10.1088/0953-2048/16/6/304",

language = "英语",

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TY - JOUR

T1 - High critical current density in MgB2/Fe wires

AU - Feng, Y.

AU - Yan, G.

AU - Zhao, Y.

AU - Wu, X. J.

AU - Pradhan, A. K.

AU - Zhang, X.

AU - Liu, C. F.

AU - Liu, X. H.

AU - Zhou, L.

PY - 2003/6

Y1 - 2003/6

N2 - High-quality monofilamentary MgB2 wires with Fe sheath were fabricated by the powder-in-tube (PIT) method at ambient pressure. The phase compositions, microstructure features and flux pinning properties are investigated by using x-ray diffractometer. SEM. TEM and a standard four-probe technique. It is found that MgB2 has no reaction with Fe. The results indicate that MgB2 wires are dense and only MgB2 and few MgO phases exist in the core area. MgB2/Fe wires exhibit very high transport critical current densities of 1.43 × 105 A cm-2 (4.2 K, 4 T), 2.8 × 104 A cm-2 (4.2 K, 6 T), 3.72 × 104 A cm-2 (15 K, 4 T) and 2.34 × 104 A cm-2 (25 K, 3 T). The maximum flux pinning force shows a peak at 4 T at 4.2 K, suggesting strong pinning at high fields. The reasons for the large Jc in the sample was also discussed.

AB - High-quality monofilamentary MgB2 wires with Fe sheath were fabricated by the powder-in-tube (PIT) method at ambient pressure. The phase compositions, microstructure features and flux pinning properties are investigated by using x-ray diffractometer. SEM. TEM and a standard four-probe technique. It is found that MgB2 has no reaction with Fe. The results indicate that MgB2 wires are dense and only MgB2 and few MgO phases exist in the core area. MgB2/Fe wires exhibit very high transport critical current densities of 1.43 × 105 A cm-2 (4.2 K, 4 T), 2.8 × 104 A cm-2 (4.2 K, 6 T), 3.72 × 104 A cm-2 (15 K, 4 T) and 2.34 × 104 A cm-2 (25 K, 3 T). The maximum flux pinning force shows a peak at 4 T at 4.2 K, suggesting strong pinning at high fields. The reasons for the large Jc in the sample was also discussed.

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SN - 0953-2048

VL - 16

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EP - 684

JO - Superconductor Science and Technology

JF - Superconductor Science and Technology

IS - 6

ER -

High critical current density in MgB2/Fe wires

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High critical current density in MgB₂/Fe wires