Work-hardening behavior of cold rolled EUROFER97 steel for nuclear fusion applications

Proceedings of The 1st International Electronic Conference on Metallurgy and Metals Pub Date : 2021-02-18 DOI:10.3390/IEC2M-09242

G. Stornelli, A. Schino, R. Montanari, C. Testani, A. Varone, S. Mancini

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引用次数: 1

Abstract

The reduced activation martensitic steel EUROFER97 is recognized in Europe as the reference steel for structural applications in future nuclear fusion reactors. Usually, EUROFER97 steel plates are manufactured by hot rolling and successive heat treatments: (1) austenitization at 980 °C for 30 min, (2) air cooling, and (3) tempering at 760 °C for 90 min. Recently, thermo-mechanical treatments have been investigated by us with the scope to improve the mechanical properties, namely, to strengthen the steel without reducing its ductility. The experiments involve cold rolling with three reduction rates (30%, 40%, 50%) and, for each of them, heat treatments at different temperatures in the range from 550 °C to 750 °C. The mechanical and microstructural characterization of the samples after successive stages of the process is now underway and present work reports some preliminary results. The characteristics of the samples after cold rolling have been examined by means of hardness tests, metallography, and X-ray diffraction measurements, and work-hardening is discussed in terms of dislocation density.

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核聚变用冷轧EUROFER97钢的加工硬化行为

低活化马氏体钢EUROFER97在欧洲被认为是未来核聚变反应堆结构应用的参考钢。通常，EUROFER97钢板是通过热轧和连续热处理来制造的:(1)在980°C下奥氏体化30分钟，(2)空气冷却，(3)在760°C下回火90分钟。最近，我们研究了热机械处理的范围，以提高机械性能，即在不降低钢的延展性的情况下增强钢。实验包括三种压下率(30%、40%、50%)的冷轧，以及每种压下率在550℃至750℃范围内的不同温度下的热处理。经过连续几个阶段后，样品的机械和微观结构特征正在进行中，目前的工作报告了一些初步结果。通过硬度测试、金相学和x射线衍射测量，研究了冷轧后样品的特征，并从位错密度的角度讨论了加工硬化。

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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Proceedings of The 1st International Electronic Conference on Metallurgy and Metals

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