Severe Plastic Deformation Processes with Friction Induced Shear

机译：严重的塑性变形过程，产生摩擦剪切

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Among the known severe plastic deformation (SPD) techniques, there is a special group of processes involving friction-induced shear. One of the sample or work-piece dimensions used in such processes, namely the thickness, is much smaller than the other two dimensions. The well-known process of High Pressure Torsion (HPT) and the relatively new Cone-Cone (CC) method applied to thin conical samples fall into this category of SPD techniques. Wrought aluminium alloy 2124 was used to study the effect of CC processing on microstructure and mechanical properties. The influence of the processing parameters, including the rotation speed and thickness of the conical strip specimens on the microstructure and the mechanical properties of the CC-processed material was investigated.

机译：在已知的严重塑性变形（SPD）技术中，有一组涉及摩擦感应剪切的特殊过程。在这种过程中使用的样品或工件尺寸之一，即厚度，远小于其他两个尺寸。众所周知，高压扭力（HPT）工艺和较新的圆锥锥（CC）方法应用于薄圆锥形样品属于SPD技术。锻造铝合金2124用于研究CC处理对组织和力学性能的影响。研究了加工参数（包括锥形带状试样的转速和厚度）对CC加工材料的组织和力学性能的影响。

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来源
《Nanomaterials by severe plastic deformation》|2011年|p.25-30|共6页
会议地点 Nanjing(CN);Nanjing(CN)
作者
Rimma Lapovok; Yuri Estrin; Richard Djugum; Andre Lerk;
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作者单位

ARC Centre of Excellence for Design in Light Metals, Department of Materials Engineering,Monash University, Clayton, VIC, Australia;

ARC Centre of Excellence for Design in Light Metals, Department of Materials Engineering,Monash University, Clayton, VIC, Australia,CSIRO Division of Process Science and Engineering, Clayton, VIC, Australia;

ARC Centre of Excellence for Design in Light Metals, Department of Materials Engineering,Monash University, Clayton, VIC, Australia;

ARC Centre of Excellence for Design in Light Metals, Department of Materials Engineering,Monash University, Clayton, VIC, Australia;

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原文格式 PDF
正文语种 eng
中图分类塑料;
关键词
severe plastic deformation; cone-cone method; microstructure; mechanical properties;

机译：严重的塑性变形；锥锥法微观结构机械性能;

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专利

1. Severe Plastic Deformation Processes with Friction Induced Shear [J] . Rimma Lapovok, Yuri Estrin, Richard Djugum, Materials science forum . 2011,第PTa1期

机译：严重的塑性变形过程，产生摩擦剪切
2. Atomic-level structural modifications induced by severe plastic shear deformation in bulk metallic glasses [J] . X.D. Wang, Q.P. Cao, J.Z. Jiang Scripta materialia . 2011,第1期

机译：大块金属玻璃中严重的塑性剪切变形引起的原子级结构修饰
3. 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
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. Shear induced mixing and self-organization in immiscible alloys during severe plastic deformation. [D] . Arshad, Salman Noshear. 2014

机译：在严重的塑性变形过程中，剪切作用在不混溶的合金中引起混合和自组织。
6. Effect of Rotation of the Principal Stress Axes Relative to the Material on the Evolution of Material Properties in Severe Plastic Deformation Processes [O] . Marko Vilotic, Leposava Sidjanin, Sergei Alexandrov, 2020

机译：主应力轴旋转相对于材料在重度塑性变形过程中材料性能演化的影响
7. The Frictional Mechanism on Surface of Metals with the Bulk Plastic Deformation : 3rd Report, Effects of the Bulk Plastic Deformation on the Frictional Shear Stress [O] . Takashi SHIMIZU, Noboru KOIKE 1973

机译：散装塑性变形的金属表面上的摩擦机制：第3次报告，散装塑性变形对摩擦剪切应力的影响

Severe Plastic Deformation Processes with Friction Induced Shear

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