A nanocrystalline fcc phase via devitrification of a Ni36Fe32Ta7Si8B17 amorphous alloy

P Rizzi , M Baricco , G Riontino , L Battezzati
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引用次数: 3

Abstract

Various multicomponent alloys containing Ni-Fe-Si-B and refractory metals have been rapidly solidifed in order to check their tendency to produce glassy phases and their devitrification behaviour has been studied. Among these a Ni36Fe32Ta7Si8B17 alloy presents primary crystallization with production of fcc nanocrystals embedded in the glassy matrix. The kinetics of the transformation is determined at 530 °C showing that it consists in two steps: fast nucleation and growth of nanocrystals plus homogenization of the remaining matrix with crystal coarsening. Evidence based on TEM observations, XRD patterns and DSC experiments, are reported in favour of a homogeneous mechanism of nucleation. Faceting of nanocrystals is observed for the first time in such transformations and is attributed to a stress effect on the particles.

Ni36Fe32Ta7Si8B17非晶合金反硝化制备纳米晶fcc相
本文对含Ni-Fe-Si-B和难熔金属的多种多组分合金进行了快速凝固,以检验其产生玻璃相的倾向,并对其反晶化行为进行了研究。其中Ni36Fe32Ta7Si8B17合金呈现一次晶化,并产生嵌套在玻璃基体中的fcc纳米晶。在530℃时测定了相变动力学,表明相变包括两个步骤:纳米晶体的快速成核和生长以及剩余基体的均匀化和晶体粗化。基于TEM、XRD和DSC实验的证据表明,其成核机制是均匀的。在这种转变中首次观察到纳米晶体的面状,并归因于对颗粒的应力效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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