Microstructure evolution in a Fe-Ni-Si alloy during heat treatment and electron irradiation

S. Danilov
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Abstract

Experiments have been made on studying structural and phase changes by the residual resistivity method in a Fe-Ni-Si alloy during annealing and electron irradiation. Thermal diffusion starts above 600 K and ensures decomposition of the solid solution up to 700 K; at higher temperatures it provides homogenization of the solid solution with the dissolution of intermetallic compounds in accordance with the equilibrium phase diagram. It is shown that, upon irradiation with electrons above 240 K, vacancy clusters are formed in both the aged and quenched alloys. Dissociation of clusters occurs at temperatures ranging between 350 and 500 K and leads to solid solution decomposition under the influence of diffusion caused by migrating vacancies with the formation of intermetallic precipitates. Irradiation at 423 K causes migration of vacancies and decomposition of the solid solution. In alloys irradiated at both temperatures above 700 K, as well as in unirradiated alloys, the precipitates dissolve in accordance with a single equilibrium dependence.
Fe-Ni-Si合金在热处理和电子辐照过程中的组织演变
用残余电阻率法研究了Fe-Ni-Si合金在退火和电子辐照过程中的结构和相变化。热扩散从600 K以上开始,确保分解到700 K的固溶体;在较高的温度下,它使固溶体均匀化,金属间化合物的溶解符合平衡相图。结果表明,在240 K以上的电子辐照下,时效合金和淬火合金都形成了空位团簇。在350 ~ 500 K的温度范围内,团簇发生解离,并在迁移空位引起的扩散影响下导致固溶体分解,形成金属间析出物。423 K辐照引起空位迁移和固溶体分解。在700 K以上的温度下辐照的合金和未辐照的合金中,析出相都按照单一的平衡关系溶解。
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