磁制冷
铁磁性
凝聚态物理
反铁磁性
等结构
材料科学
磁化
转变温度
磁滞
相变
磁场
超导电性
结晶学
化学
晶体结构
物理
量子力学
作者
Zhao Song,Zongbin Li,Bo Yang,Haile Yan,Claude Esling,Xiang Zhao,Liang Zuo
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2021-09-11
卷期号:14 (18): 5233-5233
被引量:13
摘要
First-order isostructural magnetoelastic transition with large magnetization difference and controllable thermal hysteresis are highly desirable in the development of high-performance magnetocaloric materials used for energy-efficient and environmental-friendly magnetic refrigeration. Here, we demonstrate large magnetocaloric effect covering the temperature range from 325 K to 245 K in Laves phase Hf1−xTaxFe2 (x = 0.13, 0.14, 0.15, 0.16) alloys undergoing the magnetoelastic transition from antiferromagnetic (AFM) state to ferromagnetic (FM) state on decreasing the temperature. It is shown that with the increase of Ta content, the nature of AFM to FM transition is gradually changed from second-order to first-order. Based on the direct measurements, large reversible adiabatic temperature change (ΔTad) values of 2.7 K and 3.4 K have been achieved under a low magnetic field change of 1.5 T in the Hf0.85Ta0.15Fe2 and Hf0.84Ta0.16Fe2 alloys with the first-order magnetoelastic transition, respectively. Such remarkable magnetocaloric response is attributed to the rather low thermal hysteresis upon the transition as these two alloys are close to intermediate composition point of second-order transition converting to first-order transition.
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