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

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

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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

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

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The effect of structure refinement of iron to submicro- and nanograins during intense plastic deformation under friction (SPDF) with simultaneous nitrogen saturation on the mechanical characteristics (hardness, plasticity, Young's modulus) has been studied by nanoindentation. The nitrogen saturation of iron during SPDF is shown to increase the hardness of micro- and submicrocrystalline regions of the surface layer as compared to SPDF in argon as a result of solid-solution hardening. A high nitrogen concentration in an á-Fe[N] solid solution weakly affects the mechanical properties of nanocrystalline iron with grain sizes d < 50 nm, in which deformation is controlled by grain-boundary sliding.

机译：通过纳米压痕研究了在摩擦下剧烈塑性变形（SPDF）以及同时氮饱和的条件下，铁细化为亚微米和纳米晶粒对机械性能（硬度，塑性，杨氏模量）的影响。由于固溶硬化，与在氩气中的SPDF相比，在SPDF中铁的氮饱和度提高了表面层的微晶和亚微晶区域的硬度。 á-Fe[N]固溶体中的高氮浓度对晶粒尺寸d <50 nm的纳米晶铁的机械性能产生微弱的影响，其变形受晶界滑动控制。

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《Russian Metallurgy(Metally)》 |2012年第4期|共8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 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
2. 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
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 Behaviour of Nanostructured Iron Fabricated by Severe Plastic Deformation under Diffusion Flow of Nitrogen [C] . A.I. Yurkova, A.V. Byakova, A.V. Belotsky, International Conference on Nanomaterials by Severe Plastic Deformation(NanoSPD3) . 2006

机译：氮气扩散流动下严重塑性变形制造的纳米结构铁的力学行为
5. Investigation of the influence of severe plastic deformation on the microstructure and mechanical properties of aluminum-7136 alloy. [D] . Duan, Zhichao. 2009

机译：研究严重塑性变形对7136铝合金组织和力学性能的影响。
6. Fine-tuning of mechanical properties in a Zn–Ag–Mg alloy via cold plastic deformation process and post-deformation annealing [O] . Maria Wątroba, Wiktor Bednarczyk, Jakub Kawałko, 2021

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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 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

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