MnFe(P,Si)一级相变热磁发电材料的制备与磁性研究

doi:10.13228/j.boyuan.issn1005-8192.2016010

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摘要通过机械合金化和固相烧结方法，制备一系列MnFe(P,Si)一级相变化合物，并测定其结构、磁热性能及部分热力学性能。研究结果表明：MnFe(P,Si)系列化合物呈Fe2P型六角结构，空间群为P-62m，其中部分化合物存在少量Fe3Si或Fe5Si3第二相。MnFe0.9P0.5Si0.5呈单相Fe2P型六角结构，由铁磁态到顺磁态（升温）和顺磁态到铁磁态（降温）的?浞直鸪鱿衷赥tw=330 K，Ttc= 318 K，其热滞ΔThys=12 K。升降温相变较快，均在10 K以内完成，说明相变是一级相变。在0~1.5 T的外磁场中最大等温磁熵变-ΔSmax=18.6 J/(kg·K) ；其比热容最高为（升温）Cp= 1 571 J/(kg·K)，（降温）Cp=1 447 J/(kg·K) 。由此推断，MnFe0.9P0.5Si0.5化合物符合热磁发电工作需求，是一种具有良好磁热性能的热磁发电候选材料。

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	韩睿
	特古斯
	欧志强
	王莹
	国庆

关键词 ：一级相变化合物，巨磁热效应，居里温度，热磁发电

Abstract：The first-order phase transition compounds MnFe(P,Si) have been prepared by mechanical alloying and solid-state reaction method, and investigated the structure，magnetocaloric properties and thermodynamic properties. The results show that the obtained MnFe(P,Si) compounds are composed of a main phase of Fe2P-type hexagonal structure with space group P-62m, and a secondary phases of Fe3Si or Fe5Si3, which appeared in some of them. MnFe0.9P0.5Si0.5 crystallizes in single phase with Fe2P-type hexagonal structure, the transitions from ferromagnetic state to paramagnetic state (heating process) and paramagnetic state to ferromagnetic state (cooling process) are appeared at Ttw= 330 K and Ttc= 318 K, respectively. Its thermal hysteresis is ΔThys= 12 K and the transition in heating and cooling process are completed in 10 K, which means these transitions are of first-order phase transition. The maximum value of magnetic entropy change is-ΔSmax= 18.6 J/(kg·K) in a magnetic field change of 0-1.5 T. The maximum heat capacity is Cp=1571 J/(kg·K) (heating process) and Cp=1447 J/(kg·K) (cooling process). Therefore, it can be inferred that MnFe0.9P0.5Si0.5 compound is an excellent candidate material for thermomagnetic power generation.

Key words： first-order phase transition compound, giant magnetocaloric effect, Curie temperature, thermomagnetic power generation

收稿日期: 2016-03-07 出版日期: 2016-06-24

基金资助:MnFe(P,Si)系一级相变材料的微结构、磁热效应和热磁发电及应用基础研究;“杂志”元素对MnFePSi化合物晶体结构、微结构和磁热性能的影响;新型Mn-Fe基磁制冷材料的制备工艺和磁热性能的研究

通讯作者: 特古斯 E-mail: tegusph@imnu.edu.cn

引用本文:

韩睿，特古斯，欧志强，王莹，国庆. MnFe(P,Si)一级相变热磁发电材料的制备与磁性研究[J]. , 2016, 23(3): 11-16.
HAN Rui, O Tegus, OU Zhi-qiang, WANG Ying, GUO Qing. Investigation on the synthesize and magnetic properties of first-order phase transition thermomagnetic power generation compound MnFe(P,Si). , 2016, 23(3): 11-16.

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