铟替代部分锗对锰钴锗合金磁结构相变及磁热效应的影响  

Influence of In-substitution for Partial Ge on Magneto-Structural Transition and Magnetocaloric Effect of MnCoGe Alloy

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作  者:包立夫[1] 武荣荣[2] 张虎[3] 

机构地区:[1]陕西理工学院物理与电信工程学院,汉中723000 [2]中国科学院物理研究所,磁学国家重点实验室,北京100190 [3]北京科技大学材料科学与工程学院,北京100083

出  处:《机械工程材料》2016年第5期67-71,76,共6页Materials For Mechanical Engineering

基  金:国家自然科学基金青年科学基金资助项目(11504222);陕西省教育厅专项科研计划项目(15JK1111)

摘  要:为研究铟替代部分锗对锰钴锗合金磁结构相变与磁热效应的影响,采用电弧熔炼方法制备了Mn_1Co_1Ge_1和Mn_1Co_1Ge_(0.99)In_(0.01)合金,研究了这两种合金的物相、相变和磁热效应,以及升、降温测试方式得到的Mn_1Co_1Ge_(0.99)In_(0.01)合金的磁化曲线。结果表明:铟替代部分锗后,合金中并未产生杂相,其相变特性由二级磁相变变为一级磁结构相变;Mn_1Co_1Ge_(0.99)In_(0.01)合金在不同的相变方向上具有不同的磁滞后行为;升温测试时,Mn_1Co_1Ge_(0.99)In_(0.01)合金在5,7T磁场强度下的磁熵变峰值分别为52.2,64.1J·kg^(-1)·K^(-1),降温测试时的磁熵变峰值分别为40.8,50.9J·kg^(-1)·K^(-1);升温测试时,Mn_1Co_1Ge_(0.99)In_(0.01)合金在7T磁场强度下的制冷能力为477J·kg^(-1),降温测试时为264.4J·kg^(-1)。In order to investigate the effects of In-substitution for partiM Ge on magneto structural transition and rnagnetocaloric effect (MCE),Mn_1Co_1Ge_1 and Mn_1Co_1Ge_(0.99)In_(0.01) alloys were prepared by arc-melting method, and phase composition, phase transition, MCE and magnetization isotherms of Mn_1Co_1Ge_(0.99)In_(0.01) alloy obtained by warming and cooling modes were studied. The results show that In-substitution for partial Ge would not lead to impurity phase, but could turn the second order magnetic transition to first-order nlagneto-structural transition. Mn_1Co_1Ge_(0.99)In_(0.01) alloy owned different magnetism hysteresis behaviors on different phase transformation directions. In warning mode, the maximal magnetization entropy ofMn_1Co_1Ge_(0.99)In_(0.01), alloy at magnetic intensigy of 5, 7 T were 52.2,64.1J·kg-(-1)·K-(-1), respectively; in cooling mode, those were 40.8,50.9J·kg-(-1)·K-(-1),respectively. The refrigeration capacity of Mn_1Co_1Ge_(0.99)In_(0.01) alloy at magnetic intensity of 7 T was 477J·kg-(-1), and that was 264.4J·kg-(-1).

关 键 词:锰钴锗合金 磁热效应 磁结构相变 制冷能力 

分 类 号:TM271[一般工业技术—材料科学与工程]

 

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