Magnetostructural coupling and magnetocaloric effect in Ni-Mn-Ga-Cu microwires

Xuexi Zhang; Mingfang Qian; Zhe Zhang; Longsha Wei; Lin Geng; Jianfei Sun

doi:10.1063/1.4941232

Magnetostructural coupling and magnetocaloric effect in Ni-Mn-Ga-Cu microwires

Xuexi Zhang^*
, Mingfang Qian
, Zhe Zhang
, Longsha Wei
, Lin Geng
, Jianfei Sun

^*Corresponding author for this work

Harbin Institute of Technology

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

51 Scopus citations

Abstract

Ni-Mn-Ga-X microwires were produced by melt-extraction technique on a large scale. Their shape memory effect, superelasticity, and damping capacity have been demonstrated. Here, the excellent magnetocaloric effect was revealed in Ni-Mn-Ga-Cu microwires produced by melt-extraction and subsequent annealing. The overlap of the martensitic and magnetic transformations, i.e., magnetostructural coupling, was achieved in the annealed microwires. The magnetostructural coupling and wide martensitic transformation temperature range contribute to a large magnetic entropy change of -8.3 J/kg K with a wide working temperature interval of ∼13 K under a magnetic field of 50 kOe. Accordingly, a high refrigeration capacity of ∼78 J/kg was produced in the annealed microwires.

Original language	English
Article number	052401
Journal	Applied Physics Letters
Volume	108
Issue number	5
DOIs	https://doi.org/10.1063/1.4941232
State	Published - 1 Feb 2016
Externally published	Yes

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title = "Magnetostructural coupling and magnetocaloric effect in Ni-Mn-Ga-Cu microwires",

abstract = "Ni-Mn-Ga-X microwires were produced by melt-extraction technique on a large scale. Their shape memory effect, superelasticity, and damping capacity have been demonstrated. Here, the excellent magnetocaloric effect was revealed in Ni-Mn-Ga-Cu microwires produced by melt-extraction and subsequent annealing. The overlap of the martensitic and magnetic transformations, i.e., magnetostructural coupling, was achieved in the annealed microwires. The magnetostructural coupling and wide martensitic transformation temperature range contribute to a large magnetic entropy change of -8.3 J/kg K with a wide working temperature interval of ∼13 K under a magnetic field of 50 kOe. Accordingly, a high refrigeration capacity of ∼78 J/kg was produced in the annealed microwires.",

author = "Xuexi Zhang and Mingfang Qian and Zhe Zhang and Longsha Wei and Lin Geng and Jianfei Sun",

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doi = "10.1063/1.4941232",

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T1 - Magnetostructural coupling and magnetocaloric effect in Ni-Mn-Ga-Cu microwires

AU - Zhang, Xuexi

AU - Qian, Mingfang

AU - Zhang, Zhe

AU - Wei, Longsha

AU - Geng, Lin

AU - Sun, Jianfei

PY - 2016/2/1

Y1 - 2016/2/1

N2 - Ni-Mn-Ga-X microwires were produced by melt-extraction technique on a large scale. Their shape memory effect, superelasticity, and damping capacity have been demonstrated. Here, the excellent magnetocaloric effect was revealed in Ni-Mn-Ga-Cu microwires produced by melt-extraction and subsequent annealing. The overlap of the martensitic and magnetic transformations, i.e., magnetostructural coupling, was achieved in the annealed microwires. The magnetostructural coupling and wide martensitic transformation temperature range contribute to a large magnetic entropy change of -8.3 J/kg K with a wide working temperature interval of ∼13 K under a magnetic field of 50 kOe. Accordingly, a high refrigeration capacity of ∼78 J/kg was produced in the annealed microwires.

AB - Ni-Mn-Ga-X microwires were produced by melt-extraction technique on a large scale. Their shape memory effect, superelasticity, and damping capacity have been demonstrated. Here, the excellent magnetocaloric effect was revealed in Ni-Mn-Ga-Cu microwires produced by melt-extraction and subsequent annealing. The overlap of the martensitic and magnetic transformations, i.e., magnetostructural coupling, was achieved in the annealed microwires. The magnetostructural coupling and wide martensitic transformation temperature range contribute to a large magnetic entropy change of -8.3 J/kg K with a wide working temperature interval of ∼13 K under a magnetic field of 50 kOe. Accordingly, a high refrigeration capacity of ∼78 J/kg was produced in the annealed microwires.

UR - https://www.scopus.com/pages/publications/84957559351

U2 - 10.1063/1.4941232

DO - 10.1063/1.4941232

M3 - 文章

AN - SCOPUS:84957559351

SN - 0003-6951

VL - 108

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 5

M1 - 052401

ER -

Magnetostructural coupling and magnetocaloric effect in Ni-Mn-Ga-Cu microwires

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