Achievement of a table-like magnetocaloric effect in the dual-phase ErZn2/ErZn composite

Achievement of a table-like magnetocaloric effect in the dual-phase ErZn2/ErZn composite

Dual-phase ErZn2/ErZn composite was obtained by induction-melting method. The composite crystallizes in the phases of ErZn2 and ErZn with the weight ratio of 53.8:46.2. The composite undergoes two successive magnetic phase transitions. And accordingly two peaks (partly overlapped) are appeared in th...

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Main Authors: Lingwei Li, Ye Yuan, Yang Qi, Qiang Wang, Shengqiang Zhou
Format: Article
Language:English
Published: Taylor & Francis Group 2018-01-01
Series:Materials Research Letters
Subjects:
Dual-phase ErZn2/ErZn composite
metal matrix composites
magnetic properties magnetocaloric effect
large refrigeration capacity
magnetic refrigeration
Online Access:http://dx.doi.org/10.1080/21663831.2017.1393778
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spelling doaj-a81c63a7ba3e43c0b9f39b09c71292d22020-11-25T02:37:31ZengTaylor & Francis GroupMaterials Research Letters2166-38312018-01-0161677110.1080/21663831.2017.13937781393778Achievement of a table-like magnetocaloric effect in the dual-phase ErZn2/ErZn compositeLingwei Li0Ye Yuan1Yang Qi2Qiang Wang3Shengqiang Zhou4Northeastern UniversityInstitute of Ion Beam Physics and Materials ResearchNortheastern UniversityNortheastern UniversityInstitute of Ion Beam Physics and Materials ResearchDual-phase ErZn2/ErZn composite was obtained by induction-melting method. The composite crystallizes in the phases of ErZn2 and ErZn with the weight ratio of 53.8:46.2. The composite undergoes two successive magnetic phase transitions. And accordingly two peaks (partly overlapped) are appeared in the temperature dependence of magnetic part of entropy change ΔSM(T) curves which resulting in a table-like magnetocaloric effect (MCE) and large refrigerant capacity (RC). The MCE parameters are comparable or even larger than most of the recently reported potential magnetic refrigerant materials at similar temperature region, making the dual-phase ErZn2/ErZn composite attractive for low-temperature magnetic refrigeration.http://dx.doi.org/10.1080/21663831.2017.1393778Dual-phase ErZn2/ErZn compositemetal matrix compositesmagnetic properties magnetocaloric effectlarge refrigeration capacitymagnetic refrigeration
collection DOAJ
language English
format Article
sources DOAJ
author Lingwei Li
Ye Yuan
Yang Qi
Qiang Wang
Shengqiang Zhou
spellingShingle Lingwei Li
Ye Yuan
Yang Qi
Qiang Wang
Shengqiang Zhou
Achievement of a table-like magnetocaloric effect in the dual-phase ErZn2/ErZn composite
Materials Research Letters
Dual-phase ErZn2/ErZn composite
metal matrix composites
magnetic properties magnetocaloric effect
large refrigeration capacity
magnetic refrigeration
author_facet Lingwei Li
Ye Yuan
Yang Qi
Qiang Wang
Shengqiang Zhou
author_sort Lingwei Li
title Achievement of a table-like magnetocaloric effect in the dual-phase ErZn2/ErZn composite
title_short Achievement of a table-like magnetocaloric effect in the dual-phase ErZn2/ErZn composite
title_full Achievement of a table-like magnetocaloric effect in the dual-phase ErZn2/ErZn composite
title_fullStr Achievement of a table-like magnetocaloric effect in the dual-phase ErZn2/ErZn composite
title_full_unstemmed Achievement of a table-like magnetocaloric effect in the dual-phase ErZn2/ErZn composite
title_sort achievement of a table-like magnetocaloric effect in the dual-phase erzn2/erzn composite
publisher Taylor & Francis Group
series Materials Research Letters
issn 2166-3831
publishDate 2018-01-01
description Dual-phase ErZn2/ErZn composite was obtained by induction-melting method. The composite crystallizes in the phases of ErZn2 and ErZn with the weight ratio of 53.8:46.2. The composite undergoes two successive magnetic phase transitions. And accordingly two peaks (partly overlapped) are appeared in the temperature dependence of magnetic part of entropy change ΔSM(T) curves which resulting in a table-like magnetocaloric effect (MCE) and large refrigerant capacity (RC). The MCE parameters are comparable or even larger than most of the recently reported potential magnetic refrigerant materials at similar temperature region, making the dual-phase ErZn2/ErZn composite attractive for low-temperature magnetic refrigeration.
topic Dual-phase ErZn2/ErZn composite
metal matrix composites
magnetic properties magnetocaloric effect
large refrigeration capacity
magnetic refrigeration
url http://dx.doi.org/10.1080/21663831.2017.1393778
work_keys_str_mv AT lingweili achievementofatablelikemagnetocaloriceffectinthedualphaseerzn2erzncomposite
AT yeyuan achievementofatablelikemagnetocaloriceffectinthedualphaseerzn2erzncomposite
AT yangqi achievementofatablelikemagnetocaloriceffectinthedualphaseerzn2erzncomposite
AT qiangwang achievementofatablelikemagnetocaloriceffectinthedualphaseerzn2erzncomposite
AT shengqiangzhou achievementofatablelikemagnetocaloriceffectinthedualphaseerzn2erzncomposite
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