Deformation Microstructure and Deformation-Induced Martensite in Austenitic Fe-Cr-Ni Alloys Depending on Stacking Fault Energy

Tian Ye; Gorbatov Oleg I.; Borgenstam Annika; Ruban Andrei V.; Hedstrom Peter

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Deformation Microstructure and Deformation-Induced Martensite in Austenitic Fe-Cr-Ni Alloys Depending on Stacking Fault Energy

机译：奥氏体Fe-Cr-Ni合金中的变形微观结构和变形诱导的马氏体，取决于堆叠故障能量

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The deformation microstructure of austenitic Fe-18Cr-(10-12)Ni (wt pct) alloys with low stacking fault energies, estimated by first-principles calculations, was investigated after cold rolling. The E >-martensite was found to play a key role in the nucleation of alpha'-martensite, and at low SFE, E > formation is frequent and facilitates nucleation of alpha' at individual shear bands, whereas shear band intersections become the dominant nucleation sites for alpha' when SFE increases and mechanical twinning becomes frequent. (C) The Author(s) 2016. This article is published with open access at Springerlink.com

机译：冷轧后，研究了通过第一原理计算的低堆叠故障能量的奥氏体Fe-18Cr-（10-12）Ni（WT PCT）合金的变形微观结构。发现e> -martensite在α-马氏体的成核中发挥关键作用，并且在低SFE下，E>形成频繁并促进α'在单个剪切带中的成核，而剪切乐队交叉点成为主导成核当SFE增加和机械孪生变得频繁时，alpha'的网站。（c）2016年作者。本文在SpringerLink.com上发布了开放式访问权限

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《Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science》 |2017年第1期|共7页
作者
Tian Ye; Gorbatov Oleg I.; Borgenstam Annika; Ruban Andrei V.; Hedstrom Peter;
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KTH Royal Inst Technol Dept Mat Sci &

Engn S-10044 Stockholm Sweden;

KTH Royal Inst Technol Dept Mat Sci &

Engn S-10044 Stockholm Sweden;

KTH Royal Inst Technol Dept Mat Sci &

Engn S-10044 Stockholm Sweden;

KTH Royal Inst Technol Dept Mat Sci &

Engn S-10044 Stockholm Sweden;

KTH Royal Inst Technol Dept Mat Sci &

Engn S-10044 Stockholm Sweden;

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正文语种 eng
中图分类冶金技术;
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1. Deformation Microstructure and Deformation-Induced Martensite in Austenitic Fe-Cr-Ni Alloys Depending on Stacking Fault Energy [J] . Tian Ye, Gorbatov Oleg I., Borgenstam Annika, Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2017,第1期

机译：奥氏体Fe-Cr-Ni合金中的变形微观结构和变形诱导的马氏体，取决于堆叠故障能量
2. Deformation-induced martensitic transformation in a 201 austenitic steel: The synergy of stacking fault energy and chemical driving force [J] . M. Moallemi, A. Kermanpur, A. Najafizadeh, Materials Science and Engineering . 2016,第JANa20期

机译：201奥氏体钢中的变形引起的马氏体相变：堆垛层错能和化学驱动力的协同作用
3. Nanomechanical insights into the deformation behavior of austenitic alloys with different stacking fault energies and austenitic stability [J] . R.D.K. Misra, Z.Zhang, Z.Jia, Materials Science and Engineering . 2011,第22a23期

机译：不同堆垛层错能和奥氏体稳定性的奥氏体合金变形行为的纳米力学见解
4. The Influence of Stacking-Fault Energy on Deformation Mechanisms in an Fe-Mn-Al-Si Austenitic TRIP/TWIP Steel [C] . D. T. Pierce, J. Bentley, J.A. Jimenez, Microscopy Society of America Annual Meeting;Microanalysis Society Annual meeting;International Metallographic Society Annual meeting . 2012

机译：堆垛层错能量对Fe-Mn-Al-Si奥氏体TRIP / TWIP钢变形机制的影响
5. Microstructure evolution in proton -irradiated austenitic Fe-Cr-Ni alloys under LWR core conditions [D] . Gan, Jian 1999

机译：轻水堆芯条件下质子辐照奥氏体Fe-Cr-Ni合金的组织演变
6. Stacking fault energy prediction for austenitic steels: thermodynamic modeling vs. machine learning [O] . Xin Wang, Wei Xiong 2020

机译：奥氏体钢的堆叠故障能量预测：热力学造型与机器学习
7. Deformation Microstructure and Deformation-Induced Martensite in Austenitic Fe-Cr-Ni Alloys Depending on Stacking Fault Energy [O] . 2016

机译：取决于堆垛层错能的奥氏体Fe-Cr-Ni合金的形变组织和形变诱发马氏体
8. STACKING FAULT ENERGY, ORDERING AND TRANSGRANULAR STRESS CORROSION CRACKING IN Fe-Cr-Ni ALLOYS [R] . Walter Ray Roser 1963

机译：Fe-Cr-Ni合金中堆垛层错能，有序和转子应力腐蚀开裂

Deformation Microstructure and Deformation-Induced Martensite in Austenitic Fe-Cr-Ni Alloys Depending on Stacking Fault Energy

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