| 级联碰撞对层状珠光体力学行为的影响 |
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| 引用本文: | 朱笔达,黄敏生,李振环.级联碰撞对层状珠光体力学行为的影响[J].固体力学学报,2021,41(6):532-544. |
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| 作者姓名: | 朱笔达 黄敏生 李振环 |
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| 作者单位: | 华中科技大学力学系 |
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| 基金项目: | 辐照弥散氧化物增强钢塑性变形和断裂的细观机理及多尺度模拟;多尺度塑性和损伤力学 |
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| 摘 要: | 铁素体合金钢是目前在核能工程界应用最为广泛的一种金属结构材料,以渗碳体和铁素体基体构成的层状珠光体是铁素体合金钢中常见的金相结构。深入理解辐照效应对层状珠光体力学性能的影响对高辐照条件下铁素体钢的材料设计与寿命评估有着重要的理论参考意义。基于以上考虑,本文采用分子动力学(MD)模拟,研究了连续低能铁原子级联碰撞对渗碳体/铁素体两相界面的破坏情况,探讨了经历不同程度级联碰撞的两相结构在单向拉伸以及压缩荷载下的初始屈服情况。通过对MD模拟结果的深入分析,得到了以下主要结论:a.辐照会破坏渗碳体/铁素体两相界面的失配位错结构,引起渗碳体的分解,并促进碳原子向铁素体的扩散;b.在单轴拉伸荷载作用下,级联碰撞会使初始屈服机制由{112}<111>位错滑移系的开动转变为间隙原子团簇附近位错环的形核与长大;c.在单轴压缩荷载作用下,级联碰撞会使初始塑性变形机制由{110}<111>滑移系的开动转变为{112}<111>滑移系的开动;d)无论在单轴拉伸还是压缩情况下,级联碰撞(及辐照效应)都会导致位错初始形核应力的提升。本文的研究结果为铁素体合金钢的辐照硬化和辐照脆化行为提供了新的微观解释,对于辐照条件下铁素体合金钢材料的优化设计有一定的参考意义。
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| 关 键 词: | 珠光体 铁素体合金钢 辐照损伤 脆化硬化 分子动力学 级联碰撞 Key words: pearlite ferritic-alloyed steel irradiation damage hardening and embrittlement, molecular dynamics collision cascade |
| 收稿时间: | 2019-12-31 |
Effects of collision cascades on the mechanical properties of pearlites |
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| Abstract: | Lamellar pearlites consisting of ferritic and cementite layer is a kind of common metallographic structure in ferritic-alloyed steels, the most widely used structural materials in nuclear energy engineering. Understanding the irradiation effects on the mechanical behaviors of lamellar pearlites is of importance for designing and life-prediction of such materials under high-irradiation conditions. By implementing molecular dynamics simulations, the microstructure variation of cementite/ferritic interface in lamellar pearlites caused by successive low-energy collision cascades are investigated. Besides, the initial yielding behaviors for lamellar pearlites experienced different dose of irradiation are discussed for both uniaxial tensile and compressive loadings. The main conclusions can be summarized as follows: A) The irradiation can destroy the structure of misfit dislocation arrays on the interface, and further promote the diffusion of carbon atoms from the interface to the ferritic phase. B) Under uniaxial tensile loading, collision cascades change the yielding initiation from the activation of {112}<111> slip system to the nucleation and expansion of dislocation loop from the interstitial clusters. C) Under uniaxial compressive loading, collision cascades change the yielding initiation from the activation of {110}<111> slip system to the activation of {112}<111> slip system. D) For both tensile and compressive loading types, the dislocation nucleation stress (or yielding stress) can be increased by the irradiation effects. These results may provide new nano-scale explanations on the irradiation hardening and embrittlement and shed light on the optimal design for ferritic-alloyed steels working under the irradiation environments |
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