Diffusion Rates of Components in Metal-Silicides Depending on Atomic Number of Refractory Metal Component

A. Paul
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引用次数: 3

Abstract

Interdiffusion studies conducted in group IVB, VB and VIB metal-silicon systems are discussed in detail to show a pattern in the change of diffusion coefficients with the change in atomic number of the refractory metal (M) component. MSi2 and M5Si3 phases are considered for these discussions. It is shown that integrated diffusion coefficients increase with the increase in atomic number of the refractory component when the data are plotted with respect to the melting point normalized annealing temperature. This indicates the increase in overall defect concentration facilitating the diffusion of components. This is found to be true in both the phases. Additionally, the estimated ratios of tracer diffusion coefficients indicate the change in concentration of antisite defects in certain manner with the change in atomic number of the refractory components.
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金属硅化物中组分的扩散速率与难熔金属组分原子序数的关系
详细讨论了在IVB、VB和VIB族金属硅体系中进行的相互扩散研究,揭示了扩散系数随难熔金属(M)组分原子序数变化的规律。这些讨论考虑了MSi2和M5Si3相。结果表明,当数据与熔点归一化退火温度相关时,积分扩散系数随耐火材料原子序数的增加而增加。这表明整体缺陷浓度的增加促进了组件的扩散。这在两个阶段都是成立的。此外,示踪剂扩散系数的估计比值表明,对位缺陷的浓度随耐火材料原子序数的变化有一定的变化。
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