期刊文献+
共找到1篇文章
< 1 >
每页显示 20 50 100
Structural and magnetocaloric properties in hexagonal MnNiGa alloys with Co doping
1
作者 Kun Xu Zhe Li +5 位作者 Hai-Chun Zhou Yuan-Lei Zhang Dan Yan Wei Sun Dong Zheng Chao Jing 《Rare Metals》 SCIE EI CAS CSCD 2017年第7期601-606,共6页
Hexagonal MnNiGe-based alloys are a series of novel functional materials with potential magnetostructural transitions (MSTs). Accordingly, it was investigated the magnetic features of bulk hexagonal MnNiGa alloy and... Hexagonal MnNiGe-based alloys are a series of novel functional materials with potential magnetostructural transitions (MSTs). Accordingly, it was investigated the magnetic features of bulk hexagonal MnNiGa alloy and attempted to partially substitute Mn by Co atoms to tailor its structural and magnetic properties. Nonetheless, the introduction of magnetic Co atom fails to bring about the first-order phase transition and gives rise to the emergence of second phase with cubic structure instead. For ternary MnNiGa parent alloy, the second-order nature of transition is confirmed by both the absence of thermal hysteresis and the standard Arrott plot. To the end, the values of isothermal entropy change are determined by Maxwell relation, and the maximal values follow the trend predicted by the mean-field theory. Its broad transition region (-53 K) leads to only a very small value of entropy change (- 2.4 J·kg^-1·K^- 1 at a field change of 3 T). In turn, the wide transition ensures a relative large refrigerant capacity (-89.4 J·kg^-1), which is comparable to that of MnNiGe-based systems. Although the substitution of Co for Mn site is unsuccessful, the chemically modified MnNiGa is still a promising candidate for the application of magnetocaloric effect (MCE) with merits of higher magnetization and better mechanical performance than MnNiGe-based systems. 展开更多
关键词 Magnetocaloric effect Second-order magnetictransition Arrott plot Isothermal entropy change
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部