Transformation from cluster to nano-precipitate in microalloyed ferritic steel

Jiangting Wang; Matthew Weyland; Ilias Bikmukhametov; Michael K. Miller; Peter D. Hodgson; Ilana Timokhina

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Transformation from cluster to nano-precipitate in microalloyed ferritic steel

机译：从簇中的微合金铁素体钢转化为纳米沉淀物

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Carbide precipitates are pivotal for strengthening steels and improving their resistance to hydrogen-embrittlement. Combining aberration-corrected high-resolution transmission electron microscopy and atom probe tomography, this work provides an atomic-scale evidence for the precipitation mechanism from embryo cluster to nano-precipitate in ferritic steels. Carbide precipitation begins with disc-shaped embryo clusters of several atom layers thick, which are fully coherent with the ferrite matrix. As the diameter increases, the embryo clusters grow into clusters that are analogous to the Guinier-Preston zone in Aluminium alloys. With further increase in size, particularly in thickness, clusters transform into a new phase with NaCl-structure.

机译：碳化物沉淀物是枢转的用于加强钢并改善其对氢脆化的抗性。结合像差校正的高分辨率透射电子显微镜和原子探测断层扫描，这项工作为来自胚胎簇中的沉淀机理到铁素体钢中纳米沉淀的原子尺度证据提供了原子尺度证据。碳化物沉淀从厚的多个原子层的盘形胚胎簇厚，这与铁氧体基质完全相干。随着直径的增加，胚胎簇生长到类似于铝合金中的Guinier-Preston区的簇。随着尺寸的进一步增加，特别是厚度，簇用NaCl结构变换成新相。

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来源
《Scripta materialia》 |2019年第2019期|共5页
作者
Jiangting Wang; Matthew Weyland; Ilias Bikmukhametov; Michael K. Miller; Peter D. Hodgson; Ilana Timokhina;
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作者单位

Institute for Frontier Materials Deakin University;

Monash Centre for Electron Microscopy Department of Materials Science and Engineering Monash University;

Institute for Frontier Materials Deakin University;

Center for Nanophase Materials Sciences Oak Ridge National Laboratory;

Institute for Frontier Materials Deakin University;

Institute for Frontier Materials Deakin University;

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原文格式 PDF
正文语种 eng
中图分类冶金工业;
关键词
Microalloyed ferritic steel; Precipitate; Cluster; Transmission electron microscopy; Atom probe tomography;

机译：微合金化铁素体钢;沉淀;簇;透射电子显微镜;原子探测断层扫描;

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专利

1. Transformation from cluster to nano-precipitate in microalloyed ferritic steel [J] . Jiangting Wang, Matthew Weyland, Ilias Bikmukhametov, Scripta materialia . 2019,第期

机译：从簇中的微合金铁素体钢转化为纳米沉淀物
2. Clustering and precipitation processes in a ferritic titanium-molybdenum microalloyed steel [J] . Mukherjee Subrata, Timokhina Ilana, Zhu Chen, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2017,第Null期

机译：铁素体钛钼微合金钢的团聚和析出过程
3. Effect of niobium clustering and precipitation on strength of an NbTi-microalloyed ferritic steel [J] . A.G. Kostryzhev, A. Al Shahrani, C. Zhu, Materials Science and Engineering . 2014,第juna23期

机译：铌聚集和析出对NbTi微合金铁素体钢强度的影响
4. EXTRACTION AND CHARACTERIZATION OF NANO-PRECIPITATES IN MICROALLOYED STEELS [C] . J. Lu, D.G. Ivey, H. Henein, ASME international pipeline conference;IPC2008;International pipeline conference . 2009

机译：微合金钢中纳米多肽的提取与表征
5. Effects of austenite condition on bainite transformations in microalloyed bar steels. [D] . Zhang, Fen. 1997

机译：奥氏体条件对微合金棒钢中贝氏体转变的影响。
6. Influence of Vanadium Microalloying on Microstructure and Property of Laser-Cladded Martensitic Stainless Steel Coating [O] . Wenfeng Hu, Hongmei Zhu, Jipeng Hu, 2020

机译：钒微合金化对激光熔覆马氏体不锈钢涂层组织和性能的影响
7. Modelling of Phase Transformation Kinetics by Correction of Dilatometry Results for a Ferritic Nb-microalloyed Steel [O] . Gómez, Manuel, Medina, Sebastián F., Caruana, Guillermo 2003

机译：铁素体铌微合金钢膨胀测量结果校正的相变动力学建模
8. Role of phase transformations in residual stress development in multipass ferritic steel welds and Gleeble test bars [R] . Spooner, S. , David, S. A. , Hubbard, C. R. 1995

机译：相变在多道铁素体钢焊缝和Gleeble试棒残余应力发展中的作用

Transformation from cluster to nano-precipitate in microalloyed ferritic steel

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