Atomistic investigations of kappa-carbide precipitation in austenitic Fe-Mn-Al-C lightweight steels and the effect of Mo addition

Moon Joonoh; Park Seong-Jun; Jang Jae Hoon; Lee Tae-Ho; Lee Chang-Hoon; Hong Hyun-Uk; Suh Dong-Woo; Kim Seong Hoon; Han Heung Nam; Lee Bong Ho

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Atomistic investigations of kappa-carbide precipitation in austenitic Fe-Mn-Al-C lightweight steels and the effect of Mo addition

机译：奥氏体Fe-Mn-Al-C轻钢中κ碳化物析出的原子学研究及Mo的影响

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The effect of Mo addition on precipitation behavior of kappa-(Fe,Mn)(3)AlC during aging in austenitic Fe-Mn-Al-C lightweight steels was investigated. First-principles calculations indicate that substitution of Fe or Mn by Mo in kappa-carbide is energetically unfavorable in the respect to formation energy, and it, moreover, increases strain energy contribution to interfacial energy between austenite matrix and kappa-carbide. Atom probe tomography (APT) and transmission electron microscopy (TEM) analysis showed the results consistent with the calculations, i.e., Mo didn't partition into kappa-carbide and delayed kappa-carbide precipitation. Finally, nanoindentation experiments presented that Mo addition changed the aging hardening behavior, corresponding to kappa-carbide precipitation behavior. (C) 2016 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

机译：研究了添加钼对奥氏体Fe-Mn-Al-C轻钢中时效过程中κ-（Fe，Mn）（3）AlC析出行为的影响。第一性原理计算表明，在卡伯碳化物中，用Mo代替Fe或Mn在能量上不利于地层能量，而且，这增加了应变能对奥氏体基体与卡伯碳化物之间界面能的贡献。原子探针层析成像（APT）和透射电子显微镜（TEM）分析显示结果与计算结果相符，即Mo未分配为碳化物和延迟的碳化物沉淀。最后，纳米压痕实验表明，添加钼改变了时效硬化行为，对应于碳化碳的沉淀行为。（C）2016 Acta Materialia Inc.，由Elsevier Ltd.发行。保留所有权利。

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《Scripta materialia》 |2017年第null期|共5页
作者
Moon Joonoh; Park Seong-Jun; Jang Jae Hoon; Lee Tae-Ho; Lee Chang-Hoon; Hong Hyun-Uk; Suh Dong-Woo; Kim Seong Hoon; Han Heung Nam; Lee Bong Ho;
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Lightweight steel; kappa-Carbide precipitation; Atom probe tomography (APT); First-principles calculations; Nanoindentation;

机译：轻钢;碳化钨沉淀;原子探针层析成像（APT）;第一性原理计算;纳米压痕;

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1. Atomistic investigations of kappa-carbide precipitation in austenitic Fe-Mn-Al-C lightweight steels and the effect of Mo addition [J] . Moon Joonoh, Park Seong-Jun, Jang Jae Hoon, Scripta materialia . 2017,第Null期

机译：奥氏体Fe-Mn-Al-C轻质钢中κ-碳化物沉淀的原子研究及MO添加的影响
2. Partitioning of C into kappa-carbides by Si addition and its effect on the initial deformation mechanism of Fe-Mn-Al-C lightweight steels [J] . Kim C. W., Terner M., Lee J. H., Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2019,第期

机译：Si加入C进入Kappa-Carbides的分配及其对Fe-Mn-Al-C轻质钢初始变形机理的影响
3. An Atom Probe Study of kappa-carbide Precipitation in Austenitic Lightweight Steel and the Effect of Phosphorus [J] . Bartlett L. N., Van Aken D. C., Medvedeva J., Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2017,第11期

机译：奥氏体轻质钢κ碳化物沉淀的原子探测研究及磷的影响
4. Hot Cracking Susceptibility of Fe-Mn-Al-C Austenitic Steel Welds [C] . Changhee Lee, Jaehong Yoo, Younghwan Park, International offshore and polar engineering conference . 2013

机译：Fe-Mn-Al-C奥氏体钢焊缝的热裂纹敏感性
5. Mechanism for suppression of radiation -induced segregation by oversized solute addition in austenitic stainless steel [D] . Hackett, Micah Jeremiah 2008

机译：奥氏体不锈钢中超大溶质添加抑制辐射诱发偏析的机理
6. Nano-mechanical properties of Fe-Mn-Al-C lightweight steels [O] . Alireza Rahnama, Hiren Kotadia, Samuel Clark, -1

机译：Fe-Mn-Al-C轻钢的纳米力学性能
7. Influence of kappa-carbide interface structure on the formability of lightweight steels [O] . Lu, WJ, Qin, RS 2016

机译：Kappa-carbide界面结构对轻质钢成形性的影响
8. Irradiation Response in Titanium-Modified Austenitic Stainless Steels Prepared by Rapid-Solidification Processing. Part 3. A Model for the Effect of Titanium Addition [R] . Imeson, D., Tong, C. H., Parker, C. A., 1983

机译：快速凝固法制备钛改性奥氏体不锈钢的辐照响应。第3部分。钛添加效果的模型

Atomistic investigations of kappa-carbide precipitation in austenitic Fe-Mn-Al-C lightweight steels and the effect of Mo addition

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