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Study of diffusionless and diffusional transformations usingin situcooling and heating techniques in a scanning electron microscope

材料科学 奥氏体 成核 扫描电子显微镜 马氏体 原位 环境扫描电子显微镜 温度循环 无扩散变换 热的 冶金 微观结构 热力学 复合材料 化学 物理 有机化学
作者
Deepak Kumar,Rajdeep Sarkar,Vajinder Singh,Suraj Kumar,Chandan Mondal,Partha Ghosal
出处
期刊:Philosophical Transactions of the Royal Society A [Royal Society]
卷期号:378 (2186): 20200284-20200284 被引量:3
标识
DOI:10.1098/rsta.2020.0284
摘要

In situ electron microscopy can be an effective tool to investigate the underlying science of many transformation mechanisms in materials science. Useful utilization of these experimentations will provide greater insight into many of the existing theories, as microstructural changes can be visualized in real time under some applied constraints. In this study, we have investigated two basic phase transformation phenomena: diffusionless and diffusional mechanisms with the help of in situ cooling and heating techniques in scanning electron microscope (SEM). In situ cooling experiments have been carried out on secondary hardening ultra-high-strength steels to understand the diffusionless transformation of austenite to martensite. Nucleation and growth of the martensites have been observed with cooling in different steps to −194°C. Details of the formation of different variants of martensites in steel were studied with the help of orientation imaging microscopy. Diffusional transformations were studied in terms of oxidation of pure copper in SEM using in situ heating technique. Different heating cycles were adopted for different samples by in situ heating to a maximum temperature of 950°C for the oxidation study. Nucleation of copper oxides and subsequent growth of the copper oxides at different temperatures were studied systematically. Raman spectroscopy and orientation imaging were done to confirm the formation of oxides and their orientations. The thermal cycling phenomenon was replicated inside SEM with heating and cooling and it has been demonstrated how the nature of copper and its oxides changes with the thermal cycle. This article is part of a discussion meeting issue ‘Dynamic in situ microscopy relating structure and function’.
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