Martensitic Transitions In Nanocrystalline Metastable Materials

B. Efros; V. Pilyugin; A. Patselov; S. Gladkovskii; N. Efros; L. Loladze; V. Varyukhin

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Martensitic Transitions In Nanocrystalline Metastable Materials

机译：纳米晶亚稳材料中的马氏体转变

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Microstructures of Fe-Cr-Ni and Fe-Mn alloys subjected to severe plastic deformation (SPD) under pressure have been studied by different methods. It is shown that in an austenitic steel (γ: face centred cubic structure, γ-Fe-18%Cr-10%Ni) subjected to SPD, the formation of a nanocrystalline structure results in an increase of the volume fraction of high-pressure hexagonal close-packed ε-phase. It is also shown that nanocrystals promote the forward (γ → ε) and retard the reverse (ε → γ) martensitic transformation in γ-Fe-Mn alloys. High diamond anvil cell pressures impede the (ε → γ) martensitic transformation in nanocrystalline Fe-Mn alloys and results in the presence of 100% high-pressure e-phase, which under normal conditions remains stable after processing.

机译：用不同的方法研究了在压力下经受严重塑性变形（SPD）的Fe-Cr-Ni和Fe-Mn合金的显微组织。结果表明，在经受SPD的奥氏体钢（γ：面心立方结构，γ-Fe-18％Cr-10％Ni）中，纳米晶结构的形成导致高压的体积分数增加。六方密堆积ε相。还表明，纳米晶体促进了γ-Fe-Mn合金中的正向（γ→ε）并阻碍了反向（ε→γ）马氏体转变。较高的金刚石砧室压力会阻止纳米晶Fe-Mn合金中的（ε→γ）马氏体转变，并导致存在100％的高压e相，在正常条件下，该相在加工后仍保持稳定。

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来源
《Materials Science and Engineering》 |2009年第2期|114-117|共4页
作者
B. Efros; V. Pilyugin; A. Patselov; S. Gladkovskii; N. Efros; L. Loladze; V. Varyukhin;
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正文语种 eng
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nanostructures; metastable alloys; martensitic transitions; severe plastic deformation;

机译：纳米结构;可熔合金;马氏体转变;严重塑性变形;

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1. Micromechanics based constitutive modeling of martensitic transformation in metastable materials subjected to torsion at cryogenic temperatures [J] . R. Ortwein, B. Skoczeńa, J.Ph. Tock International Journal of Plasticity . 2014,第Null期

机译：基于微力学的亚稳态材料在低温下受扭时马氏体转变的本构模型
2. On the construction of equations of relationship between stresses and strains of metastable materials with a martensitic transformation under proportional loading [J] . Kovalchuk B. I., Zaitseva L. V. Проблемы прочностиПроблемы прочности: на рус．укр．и анг．языках . 1999,第3期

机译：比例载荷下马氏体转变的亚稳材料的应力与应变关系方程的建立
3. On the construction of equations of relationship between stresses and strains of metastable materials with a martensitic transformation under proportional loading [J] . Kovalchuk B. I., Zaitseva L. V. Проблемы прочностиПроблемы прочности: на рус．укр．и анг．языках . 1999,第3期

机译：论比例荷载作用
4. Soft Magnetic Materials with Metastable Cr{sub}23C{sub}6-Type Nanocrystalline Phases [C] . B. IDZIKOWSKI, S. KOSTYRYA Intermag Conference . 2006

机译：具有稳定性Cr {Sub} 23C {Sub} 6型纳米晶相的软磁材料
5. Synthesis and Characterization of Dielectric and Multiferroic Nanocrystalline Transition Metal Oxide Materials and Nanocomposites [D] . Pearsall, Frederick Arturo. 2019

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6. A nanocrystalline monoclinic CaCO3 precursor of metastable aragonite [O] . Péter Németh, Enrico Mugnaioli, Mauro Gemmi, 2018

机译：亚稳文石的纳米晶单斜晶CaCO3前体
7. Metastable, Mechanically Alloyed and Nanocrystalline Materials (Proceedings of ISMANAM-2001) [O] . Ma, E., Atzmon, M., Koch, C.C. 2017

机译：亚稳，机械合金化和纳米晶体材料（ISMANAM-2001会议论文）
8. Martensitic Phase Transitions in Nanocrystalline Materials [R] . Gleiter, H. 1989

机译：纳米晶材料中的马氏体相变

Martensitic Transitions In Nanocrystalline Metastable Materials

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