Comparative Analysis of Plastic Flow and Grain Refinement in Pure Aluminium Subjected to Simple Shear-Based Severe Plastic Deformation Processing

Dmitry Orlov; Yoshikazu Todaka; Minoru Umemoto

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Comparative Analysis of Plastic Flow and Grain Refinement in Pure Aluminium Subjected to Simple Shear-Based Severe Plastic Deformation Processing

机译：单纯基于剪切的严重塑性变形工艺对纯铝塑性流动和晶粒细化的比较分析

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In the present work, effects of loading scheme and strain reversal on structure and hardness evolution have been studied by using high pressure torsion (HPT) and twist extrusion (TE) techniques. High purity aluminium (99.99%) was processed at room temperature up to a maximum total equivalent strain of ε_(max) ≈ 8 by TE, and HPT in monotonic and reversal deformation modes with strain increment Δε_(max) = 1. Minimum subgrain sizes reached in this study were 1.6 urn for TE and 1.1 μm for HPT. It was revealed that microstructural change with straining was a common consequence of severe plastic deformation (SPD) processing and was not affected significantly by the loading scheme. Among the SPD methods used in this study, HPT in monotonic regime produced the smallest grain size, while the most homogeneous microstructure was obtained by TE due to specific vortex-like flow field imposed by the tool geometry.

机译：在当前的工作中，已经通过使用高压扭转（HPT）和扭曲挤压（TE）技术研究了加载方案和应变反向对结构和硬度演变的影响。 TE和高纯铝（99.99％）在室温下加工到最大总等效当量应变ε_（max）≈8，并且在应变增量为Δε_（max）= 1的单调和反向变形模式下进行HPT处理。在这项研究中达到的目标是TE的1.6微米和HPT的1.1微米。结果表明，应变引起的微观结构变化是严重塑性变形（SPD）加工的常见结果，并且不受加载方案的明显影响。在这项研究中使用的SPD方法中，单调状态的HPT产生的晶粒尺寸最小，而由于工具几何形状所施加的特定涡旋状流场，TE通过这种方法获得了最均匀的微观结构。

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《Materials transactions》 |2012年第1期|共9页
作者
Dmitry Orlov; Yoshikazu Todaka; Minoru Umemoto;
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正文语种 eng
中图分类冶金工业;
关键词
high pressure torsion; twist extrusion; aluminium; microstructure; hardness;

机译：高压扭转;扭转挤压;铝;显微组织;硬度;

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1. Comparative Analysis of Plastic Flow and Grain Refinement in Pure Aluminium Subjected to Simple Shear-Based Severe Plastic Deformation Processing [J] . Dmitry Orlov, Yoshikazu Todaka, Minoru Umemoto Materials transactions . 2012,第1期

机译：单纯基于剪切的严重塑性变形工艺对纯铝塑性流动和晶粒细化的比较分析
2. Refinement and Coarsening of Grains Caused by Tensile-Shear Tests in Ultra-Fine Grained Cu Processed by Severe Plastic Deformation [J] . Matsutani Ryosuke, Miyajima Yoji, Onaka Susumu Materials transactions . 2019,第5期

机译：由严重塑性变形加工超细颗粒Cu中拉伸剪切试验引起的谷物的改进和粗化
3. Strain effect on grain refinement and thermal stability of ultrafine-grained molybdenum processed by severe plastic deformation [J] . Xue Wang, Ping Li, Kemin Xue Procedia Manufacturing . 2018,第1期

机译：应变对塑性变形严重的超细晶粒钼晶粒细化和热稳定性的影响
4. Plastic Flow and Grain Refinement Under Simple Shear-Based Severe Plastic Deformation Processing [C] . International conference on recent developments in the processing and applications of structural metals and alloys . 2009

机译：简单剪切尺寸塑性变形加工下的塑料流动和晶粒细化
5. Grain refinement and texture development of cast bismuth-antimony alloy via severe plastic deformation. [D] . Im, Jae-taek. 2007

机译：铸造铋锑合金的晶粒细化和组织通过严重的塑性变形而发展。
6. Incremental high pressure torsion as a novel severe plastic deformation process: Processing features and application to copper [O] . A. Hohenwarter -1

机译：增量高压扭力作为一种新型的严重塑性变形过程：加工特性及其在铜上的应用
7. Comparative analysis of plastic flow and grain refinement in pure aluminium subjected to simple shear-based severe plastic deformation processing [O] . Orlov, Dmitry, Todaka, Yoshikazu, Umemoto, Minoru, 2012

机译：简单剪切严重塑性变形加工纯铝塑性流动与晶粒细化的对比分析

Comparative Analysis of Plastic Flow and Grain Refinement in Pure Aluminium Subjected to Simple Shear-Based Severe Plastic Deformation Processing

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