未辐照和辐照A508贝氏体钢晶体塑性参数的确定

IF 0.9 4区 材料科学 Q3 METALLURGY & METALLURGICAL ENGINEERING Metallurgical Research & Technology Pub Date : 2021-01-01 DOI:10.1051/METAL/2021006
C. Nguyen, G. Cailletaud, F. Barbe, B. Marini, D. Nguyen, H. Phan
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引用次数: 1

摘要

本文研究了a508cl3贝氏体钢在未辐照和辐照状态及不同温度下的位错密度晶体塑性参数的确定。识别过程的代表性体积单元是一个包含1000个钢粒的立方体,由有限元离散的Voronoi马赛克表示。晶粒被指定为与各向同性织构相对应的晶体取向。晶体本构模型基于塑性流动规律、硬化规律和位错密度演化规律。建模参数通过两种不同晶体结构的两步计算确定:(1)使用具有343个相同晶粒的简单结构识别7个参数,(2)使用1000个晶粒的Voronoi镶嵌来细化参数。然后,将计算得到的应力-应变曲线与实验得到的应力-应变曲线进行对比。结果表明,模拟的应力-应变曲线与实验结果吻合较好,突出了所提出的程序在考虑辐照和温度显著影响时的可靠性。
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Identification of crystal plasticity parameters for a non-irradiated and irradiated A508 bainite steel
This paper presents the identification of dislocation-density-based crystal plasticity parameters for a A508 Cl3 bainite steel in non-irradiated and irradiated states and at different temperatures. The representative volume element for the identification process is a cube containing 1000 steel grains represented by a Voronoi mosaic discretized by finite elements. The grains are assigned crystallographic orientations corresponding to an isotropic texture. The crystal constitutive model is based on a plastic flow law, a hardening law, and a law of evolution of dislocation densities. Modeling parameters are determined by a two-step calculation with two different crystal structures: (1) using a simple structure with 343 identical grains to identify 7 parameters, (2) using a Voronoi tessellation of 1000 grains to refine the parameters. Thereafter, the calculated stress-strain curves are compared with experimental stress-strain curves. The results show that the simulated stress-strain curves are in good agreement with those of experiments, highlighting the reliability of the proposed procedure to account for the significant effects of irradiation and temperature.
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来源期刊
Metallurgical Research & Technology
Metallurgical Research & Technology METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
1.70
自引率
9.10%
发文量
65
审稿时长
4.4 months
期刊介绍: Metallurgical Research and Technology (MRT) is a peer-reviewed bi-monthly journal publishing original high-quality research papers in areas ranging from process metallurgy to metal product properties and applications of ferrous and non-ferrous metals and alloys, including light-metals. It covers also the materials involved in the metal processing as ores, refractories and slags. The journal is listed in the citation index Web of Science and has an Impact Factor. It is highly concerned by the technological innovation as a support of the metallurgical industry at a time when it has to tackle severe challenges like energy, raw materials, sustainability, environment... Strengthening and enhancing the dialogue between science and industry is at the heart of the scope of MRT. This is why it welcomes manuscripts focusing on industrial practice, as well as basic metallurgical knowledge or review articles.
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