Strain, Microstructure and Mechanical Properties Through Thickness of Oxygen Free Copper Sheet Processed by Differential Speed Rolling

Seomg-Hee Lee; Dae-Jin Yoon; Tetsuo Sakai

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Strain, Microstructure and Mechanical Properties Through Thickness of Oxygen Free Copper Sheet Processed by Differential Speed Rolling

机译：差速轧制无氧铜薄板厚度的应变，显微组织和力学性能

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The strain, microstructure and mechanical properties through thickness of an oxygen free copper(OFC) processed by differential speed rolling(DSR) were investigated in detail. The OFC sample with thickness of 1 mm was rolled to 35 percent reduction at ambient temperature without lubrication changing the differential speed ratio from 1.0:1 to 2.2:1. The shear strain introduced by the conventional rolling showed positive values at positions of upper roll side and negative values at positions of lower roll side. However, it showed zero or positive values at all positions for the samples rolled by the DSR. The effects of strain distribution through thickness of the coper sheets on microstructure, texture and mechanical properties are discussed in the present study.

机译：详细研究了通过差速轧制（DSR）处理的无氧铜（OFC）厚度的应变，显微组织和力学性能。在环境温度下，将厚度为1 mm的OFC样品轧制至35％的压下率，而无需润滑，将差速比从1.0：1更改为2.2：1。由常规轧制引入的剪切应变在上辊侧的位置处显示正值，而在下辊侧的位置处显示负值。但是，对于DSR滚动的样品，它在所有位置都显示为零或正值。在本研究中讨论了通过铜箔厚度的应变分布对微观结构，织构和力学性能的影响。

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《Journal of Korean Institute of Metal and Materials》 |2009年第2期|共8页
作者
Seomg-Hee Lee; Dae-Jin Yoon; Tetsuo Sakai;
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正文语种 kor
中图分类冶金工业;
关键词
differential speed rolling; oxygen free copper; mechanical property; strain; texture;

机译：差速轧制;无氧铜;机械性能;应变;织构;

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1. Strain, Microstructure and Mechanical Properties Through Thickness of Oxygen Free Copper Sheet Processed by Differential Speed Rolling [J] . Seomg-Hee Lee, Dae-Jin Yoon, Tetsuo Sakai Journal of Korean Institute of Metal and Materials . 2009,第2期

机译：差速轧制无氧铜薄板厚度的应变，显微组织和力学性能
2. Influence of strain path on the microstructure evolution and mechanical properties in AM31 magnesium alloy sheets processed by differential speed rolling [J] . L.L. Chang, S.B. Kang, J.H. Cho Materials & design . 2013,第FEBa期

机译：应变路径对差速轧制AM31镁合金薄板组织演变及力学性能的影响
3. Thickness Reduction Effect in Obtaining Ultrafine-Grained Microstructure from Oxygen-Free Copper Using High-Ratio Differential Speed Rolling [J] . W. J. Kim Journal of nanoscience and nanotechnology . 2011,第2期

机译：高比差速轧制从无氧铜获得超细晶组织的厚度减小效应
4. Effect of Differential Speed Rolling on Microstructure And Mechanical Properties of AZ31B Magnesium Alloy Sheets [C] . Huaqiang Liu, Di Tang, Zhenli Mi, International Conference on Advances in Materials and Manufacturing Processes . 2012

机译：差分速度轧制对AZ31B镁合金板微观结构和力学性能的影响
5. Processing, Microstructure, and Mechanical Properties of Interpenetrating Biomorphic Graphite/Copper Composites. [D] . Childers, Amanda Esther Sall. 2014

机译：互穿生物形态石墨/铜复合材料的加工，微结构和力学性能。
6. Effect of Final Rolling Temperature on Microstructures and Mechanical Properties of AZ31 Alloy Sheets Prepared by Equal Channel Angular Rolling and Continuous Bending [O] . Laixin Shi, Lei Liu, Li Hu, 2020

机译：最终轧制温度对等通道角轧制和连续弯曲制备的AZ31合金板微结构和力学性能的影响
7. Microstructure and Mechanical Properties of Oxygen Free Copper Processed by ARB at Low Strain Rate [O] . Seong-Hee Lee, Seung-Zeon Han, Cha-Yong Lim 2007

机译：α处于低应变率的氧自由铜的微观结构和力学性能

Strain, Microstructure and Mechanical Properties Through Thickness of Oxygen Free Copper Sheet Processed by Differential Speed Rolling

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