Mechanical Properties of Copper Processed by Equal Channel Angular Pressing

Q4 Materials Science Powder Metallurgy Progress Pub Date : 2017-12-01 DOI:10.1515/pmp-2017-0013
K. Sülleiová, B. Ballóková, M. Besterci,, T. Kvačkaj
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Abstract

Abstract The development of the nanostructure in commercial pure copper and the strength and ductility after severe plastic deformation (SPD) with the technology of equal channel angular pressing (ECAP) are analysed. Experimental results and analyses showed that both strength and ductility can be increased simultaneously by SPD. The final grain size decreased from the initial 50μm by SPD to 100-300 nm after 10 passes. An increase of the ductility together with an increase of strength caused by SPD are explained by a strong grain refinement and by a dynamic equilibrium of weakening and strengthening, and it is visible on the final static tensile test stress-strain charts.
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等径角压铜的力学性能
摘要分析了商用纯铜纳米结构的发展,以及等径角挤压(ECAP)技术对其剧烈塑性变形(SPD)后的强度和延展性的影响。试验结果和分析表明,SPD可以同时提高材料的强度和延性。经过10次SPD处理后,最终晶粒尺寸由最初的50μm减小到100-300 nm。SPD引起的延性和强度的增加可以用强烈的晶粒细化和弱化与强化的动态平衡来解释,这在最终的静态拉伸试验应力-应变图上是可见的。
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Powder Metallurgy Progress
Powder Metallurgy Progress Materials Science-Metals and Alloys
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