Tracer and chemical diffusion in L12-Ordered Pt3Fe : Diffusion in materials and its application: Recent development

Y. Nose, T. Ikeda, H. Nakajima, H. Numakura
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引用次数: 8

Abstract

The tracer diffusion coefficient of Fe and the chemical diffusion coefficient in L1 2 -ordered Pt 3 Fe have been measured at temperatures below the order-disorder transition temperature. The tracer diffusion coefficient of Fe in a nearly stoichiometric alloy is curved upwards in the Arrhenius plot on approaching the order-disorder transition temperature. The chemical diffusion coefficient is about 10-30 times larger than the diffusion coefficient of Fe. The tracer diffusion coefficient is influenced by composition, namely, it increases with increasing the concentration of Fe through the stoichiometric composition, but this trend almost vanishes at higher temperatures. The chemical diffusion coefficient is virtually independent of composition. The tracer diffusion coefficient of Pt has been estimated from the Darken-Manning relation. At 1223 K, it is in between the chemical diffusion coefficient and the tracer diffusion coefficient of Fe.
l12有序Pt3Fe中的示踪剂和化学扩散:材料中的扩散及其应用:最新进展
在低于有序-无序转变温度的温度下,测量了铁的示踪剂扩散系数和L1 - 2 -有序Pt - 3铁的化学扩散系数。在接近有序-无序转变温度时,铁在近化学计量合金中的示踪剂扩散系数在阿伦尼乌斯曲线上向上弯曲。化学扩散系数约为Fe扩散系数的10-30倍。示踪剂扩散系数受化学计量成分的影响,随着Fe浓度的增加,示踪剂扩散系数增大,但在较高温度下,这一趋势几乎消失。化学扩散系数实际上与成分无关。根据dark - manning关系估计了Pt的示踪剂扩散系数。在1223 K时,介于Fe的化学扩散系数和示踪剂扩散系数之间。
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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