Structure and Mechanical Properties of Iron Subjected to Surface Severe Plastic Deformation by Attrition: II. Mechanical Properties of Nano and Submicrocrystalline Iron

A. I. Yurkova; Yu. V. Milman; A. V. Byakova

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Structure and Mechanical Properties of Iron Subjected to Surface Severe Plastic Deformation by Attrition: II. Mechanical Properties of Nano and Submicrocrystalline Iron

机译：遭受磨损严重表面塑性变形的铁的结构和力学性能：II。纳米和亚微晶铁的力学性能

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Depth-sensing indentation is used to study the effect of grain refinement to submicro-and nan- ograins on the mechanical properties (hardness, plasticity, Young’s modulus) of armco iron subjected to severe plastic deformation by attrition in argon. In contrast to fcc metals, where the hardness increases and the plasticity decreases as the grain size decreases to 20 nm, the hardness of bcc iron decreases from 5.8 to 3.7 GPa and plasticity δA increases from 0.82 to 0.87 as the grain size decreases from 50 to 20 nm.

机译：深度感应压痕用于研究晶粒细化至亚微米级和纳米级对氩气中严重磨损而引起塑性变形的Armco铁的机械性能（硬度，可塑性，杨氏模量）的影响。与fcc金属相反，当晶粒尺寸减小到20 nm时，硬度增加而可塑性降低，而bcc铁的硬度随着晶粒尺寸从50减小到3.7 GPa而可塑性δA从0.82增加到0.87 20纳米

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《Russian Metallurgy(Metally)》 |2010年第4期|共6页
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A. I. Yurkova; Yu. V. Milman; A. V. Byakova;
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1. Structure and Mechanical Properties of Iron Subjected to Surface Severe Plastic Deformation by Attrition: II. Mechanical Properties of Nano and Submicrocrystalline Iron [J] . A. I. Yurkova, Yu. V. Milman, A. V. Byakova Russian Metallurgy(Metally) . 2010,第4期

机译：遭受磨损严重表面塑性变形的铁的结构和力学性能：II。纳米和亚微晶铁的力学性能
2. Structure and Mechanical Properties of Iron after Surface Severe Plastic Deformation under Friction with Simultaneous Nitrogen Saturation: II. The Mechanical Properties of Nano- and Suhmicrocrystalline Iron Saturated with Nitrogen during Deformation [J] . A. I. Yurkova, Yu. V. Milman, A. V. Byakova Russian Metallurgy(Metally) . 2012,第4期

机译：同时具有氮饱和摩擦力的表面严重塑性变形后的铁的结构和力学性能：II。变形过程中氮饱和的纳米和超微晶铁的力学性能
3. Structure and Mechanical Properties of Iron Subjected to Surface Severe Plastic Deformation by Friction: I. Structure Formation [J] . A. I. Yurkova, Yu. V. Milman, A. V. Byakova Russian Metallurgy(Metally) . 2010,第4期

机译：经受表面严重塑性变形摩擦的铁的结构和力学性能：I.组织形成
4. Mechanical Properties of Nanostructured Iron Obtained by Various Methods of Severe Plastic Deformation [C] . M. Sus-Ryszkowska, Z. Pakiele, R. Z. Valiev, Symposium G European Materials Research Society Meeting . 2005

机译：通过各种严重塑性变形获得的纳米结构铁的力学性能
5. Fabrication, microstructure, properties and deformation mechanisms of a nanocrystalline aluminum-iron-chromium-titanium alloy by mechanical alloying. [D] . Luo, Hong. 2005

机译：机械合金化纳米晶铝铁铬钛合金的制备，微观结构，性能和变形机理。
6. Microstructure Evolution and Mechanical Properties of Austenite Stainless Steel with Gradient Twinned Structure by Surface Mechanical Attrition Treatment [O] . Aiying Chen, Chen Wang, Jungan Jiang, 2021

机译：表面机械磨损处理与梯度孪晶结构奥氏体不锈钢的微观结构演化与力学性能
7. Structure and Mechanical Properties of Iron after Surface Severe Plastic Deformation under Friction with Simultaneous Nitrogen Saturation: II. The Mechanical Properties of Nano and Submicrocrystalline Iron Saturated with Nitrogen during Deformation [O] . Yurkova, Alexandra Ivanovna, Milman, Yulyi Victorovich, Byakova, Alexandra Victorovna 2011

机译：同时具有氮饱和摩擦力的表面严重塑性变形后的铁的结构和力学性能：II。变形过程中氮饱和的纳米和亚微晶铁的力学性能
8. Microstructure, Plastic Deformation and Mechanical Properties of MechanicallyAlloyed NiAl and NiAl Based Alloys [R] . Dollar, M., Nash, P., Dymek, S., 1991

机译：机械合金化Nial和Nial基合金的组织，塑性变形和力学性能

Structure and Mechanical Properties of Iron Subjected to Surface Severe Plastic Deformation by Attrition: II. Mechanical Properties of Nano and Submicrocrystalline Iron

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