Realization of magnetostructural coupling by modifying structural transitions in MnNiSi-CoNiGe system with a wide Curie-temperature window

The magnetostructural coupling between structural and magnetic transitions leads to magneto-multifunctionalities of phase-transition alloys. Due to the increasing demands of multifunctional applications, to search for the new materials with tunable magnetostructural transformations in a large operat...

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Bibliographic Details
Published in:Scientific reports 2016-03, Vol.6 (1), p.23386-23386, Article 23386
Main Authors: Liu, Jun, Gong, Yuanyuan, Xu, Guizhou, Peng, Guo, Shah, Ishfaq Ahmad, ul Hassan, Najam, Xu, Feng
Format: Article
Language:English
Subjects:
639/301/119/2793
639/301/119/997
639/766/119/2795
Alloys
Cooling
Humanities and Social Sciences
Magnetic fields
multidisciplinary
Phase transitions
Science
Temperature effects
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Summary:The magnetostructural coupling between structural and magnetic transitions leads to magneto-multifunctionalities of phase-transition alloys. Due to the increasing demands of multifunctional applications, to search for the new materials with tunable magnetostructural transformations in a large operating temperature range is important. In this work, we demonstrate that by chemically alloying MnNiSi with CoNiGe, the structural transformation temperature of MnNiSi (1200 K) is remarkably decreased by almost 1000 K. A tunable magnetostructural transformation between the paramagnetic hexagonal and ferromagnetic orthorhombic phase over a wide temperature window from 425 to 125 K is realized in (MnNiSi) 1−x (CoNiGe) x system. The magnetic-field-induced magnetostructural transformation is accompanied by the high-performance magnetocaloric effect, proving that MnNiSi-CoNiGe system is a promising candidate for magnetic cooling refrigerant.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep23386