Synthesis and sintering of Fe-32Mn-6Si shape memory alloys prepared by mechanical alloying

A. Shamsipoor, Babak Mousavi, M. Shakeri
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引用次数: 1

Abstract

Fe-32Mn-6Si alloy was produced using the mechanical alloying (MA) process of high purity powders under an inert argon gas atmosphere. The aim of this investigation is the in-depth study of the microstructure and phase transformation during the milling-sintering process of Fe-32Mn-6Si shape memory alloys. During the milling process, a significant amount of amorphous phase was created as well the crystalline martensite and austenite phases. The amorphous phase was increased by milling time enhancement and then it was decreased due to the mechano-crystalization phenomenon. It was detected that the microhardness of the alloyed powder directly depends on the amount of the amorphous phase. Furthermore, the particle size of as-milled powder firstly decreased and then increased, when the amorphous phase cojoined gradually during the milling process the transformation of martensite into austenite. The lattice strain was increased considerably during the milling process which was a reason for martensite phase creation resulting in the high shape memory properties. The amount of pre-strain for Fe-32Mn-6Si alloy was calculated to be 3.3%. Furthermore, the optimum sintering temperature was approved to be 950 °C by reduction of the percentage of pores and suitable densification.
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机械合金化制备Fe-32Mn-6Si形状记忆合金的合成与烧结
在惰性氩气气氛下,采用高纯度粉末机械合金化(MA)工艺制备了Fe-32Mn-6Si合金。本研究的目的是深入研究Fe-32Mn-6Si形状记忆合金在铣削-烧结过程中的组织和相变。在铣削过程中,产生了大量的非晶相以及结晶马氏体和奥氏体相。铣削时间的延长使非晶相增加,而机械结晶现象使非晶相减少。结果表明,合金粉末的显微硬度直接取决于非晶相的含量。铣削过程中,非晶相逐渐结合,马氏体向奥氏体转变,晶粒尺寸先减小后增大。在铣削过程中,晶格应变显著增加,这是马氏体相形成的原因,导致高形状记忆性能。计算出Fe-32Mn-6Si合金的预应变量为3.3%。通过降低气孔率和适当的致密化,确定了最佳烧结温度为950℃。
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