材料科学
共晶体系
晶界
氧化物
冶金
腐蚀
马氏体
扩散
氧气
板条
溶解
内氧化
微观结构
化学工程
化学
热力学
工程类
有机化学
物理
作者
Rui Yuan,Jiajian Shi,Jinxue Yang,Yingxue Chen,Guoqiang Huang,Chenyang Lu,Feifei Zhang,Fanqiang Meng
标识
DOI:10.1080/1478422x.2022.2115436
摘要
Clarification of the relationship between oxygen diffusion and microstructural evolution in liquid lead-bismuth eutectic (LBE) is of great importance for understanding and consequently tailoring the oxidation process. In the present study, a Si-modified ferritic martensitic steel was exposed to oxygen-saturated LBE at 500°C at various times and the interface between the internal oxidation zone and matrix was investigated. Microstructural characterisation reveals that grain boundaries and martensitic lath boundaries provide a fast pathway for oxygen diffusion, resulting in the high amount of oxidation products, as well as cracks. The internal stress caused by the formation of oxidation products along grain boundary results in the proliferation of dislocations, which subsequently play as the new diffusion channel for oxygen. The chemical analysis demonstrates that Si preferably concentrates along the dislocations in a form of Si-rich oxide, suggesting the oxidation of Si is prior to the Cr-rich oxide.
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