Nanoindentation and nanoscratching of a ferrite/austenite iron bi-crystal: An atomistic study

AlMotasem A. T.; Posselt M.; Bergstrom J.

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Nanoindentation and nanoscratching of a ferrite/austenite iron bi-crystal: An atomistic study

机译：铁素体/奥氏体铁的纳米indentation和纳米纹理：原子学研究

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Molecular dynamics simulations are applied to investigate the wear/friction behavior of a ferrite/austenite iron bi-crystal, as a model system for duplex stainless steels. The plasticity of the ferrite phase is dominated by dislocations while both dislocations and stacking faults are the primary cause of plastic deformation of the austenite phase. Interestingly, the responses of tribological parameters vary depending on the scratch direction. For instance, the scratch hardness is increased by about 46% whereas the friction coefficient is reduced by about 22% when scratch starts from austenite to ferrite. At the interface, a local softening/hardening occurs because of dislocation-interface interaction. The present results demonstrate that martensitic phase transformation is responsible for experimentally observed high amount of ferrite of the pile-up.

机译：应用分子动力学模拟来研究铁氧体/奥氏体铁Bi-Crysty的磨损/摩擦行为，作为双相不锈钢的模型系统。铁氧体相的可塑性由位错支配，而脱位和堆叠故障是奥氏体相的塑性变形的主要原因。有趣的是，摩擦学参数的反应根据划痕方向而变化。例如，划痕硬度增加约46％，而摩擦系数在从奥氏体到铁氧体开始时减少约22％。在界面处，由于位错界面相互作用而发生局部软化/硬化。本结果表明，马氏体相变对实验观察到的堆积的大量铁氧体负责。

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来源
《Tribology International》 |2018年第2018期|共9页
作者
AlMotasem A. T.; Posselt M.; Bergstrom J.;
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作者单位

Karlstad Univ Dept Mech &

Mat Engn Univ Gatan 2 S-65637 Karlstad Sweden;

Helmholtz Zentrum Dresden Rossendorf D-01328 Dresden Germany;

Karlstad Univ Dept Mech &

Mat Engn Univ Gatan 2 S-65637 Karlstad Sweden;

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正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Atomistic simulation; Ferrite; Austenite; Wear;

机译：原子模拟;铁氧体;奥氏体;穿;

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专利

1. Nanoindentation and nanoscratching of a ferrite/austenite iron bi-crystal: An atomistic study [J] . AlMotasem A. T., Posselt M., Bergstrom J. Tribology International . 2018,第期

机译：铁素体/奥氏体铁的纳米indentation和纳米纹理：原子学研究
2. Nanoindentation response of Fe-10%Cr bi-crystal structures with ∑5〈001〉and ∑3〈110〉 tilt boundaries: An atomistic study [J] . Ishraq Shabib, Mohammad Abu-Shams, Mujibur R. Khan International Journal of Computational Materials Science and Engineering . 2015,第4期

机译：Fe-10％Cr双晶结构的∑5 〈001〉和∑3 〈110〉倾斜边界的纳米压痕响应：原子研究
3. An atomistic simulation study of the crystallographic orientation relationships during the austenite to ferrite transformation in pure Fe [J] . Song H., Hoyt J. J. Modelling and simulation in materials science and engineering . 2015,第8期

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4. The Formation of Abnormal Ferrite in Hypereutectoid Steels Revisited and Its Analogy to the Formation of Austenite and Ferrite Shells Around Graphite in Cast Irons [C] . T. Chairuangsri, D. V. Edmonds Materials Science Technology Conference and Exhibition . 2009

机译：过度切开钢中异形铁氧体的形成及其类比铸造铁石墨附带奥氏体和铁氧体壳的形成
5. GRAVIMETRIC ANALYSIS OF THE AUSTENITE/FERRITE TRANSFORMATION IN IRON AND IRON - MOLYBDENUM ALLOYS. [D] . EIFERT, JAMES RICHARD -1

机译：铁和铁钼合金中奥氏体/铁素体相变的重量分析。
6. Datasets on the measurement of mechanical properties of ferrite and austenite constitutive phases using nanoindentation and micro hardness techniques [O] . Ayorinde Tayo Olanipekun, Maledi Nthabiseng, Olusoji Oluremi Ayodele, 2019

机译：使用纳米压痕和显微硬度技术测量铁素体和奥氏体本构相力学性能的数据集
7. Nanoindentation into a metastable austenite triggers the martensitic phase transformation—An atomistic study [O] . Jerome Meiser, Iyad Alabd Alhafez, Tilmann Beck, 2019

机译：纳米狭窄到稳定性奥氏体触发马氏体相变 - 原子学研究

Nanoindentation and nanoscratching of a ferrite/austenite iron bi-crystal: An atomistic study

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