Direct influence of recovery behaviour on mechanical properties in oxygen-free copper processed using different SPD techniques: HPT and ECAP

Meshal Y. Alawadhi; Shima Sabbaghianrad; Yi Huang; Terence. G. Langdon

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Direct influence of recovery behaviour on mechanical properties in oxygen-free copper processed using different SPD techniques: HPT and ECAP

机译：回收行为对使用不同的SPD技术加工的无氧铜的机械性能的直接影响：HPT和ECAP

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Oxygen-free copper of 99.95wt.% purity was severely deformed at room temperature by two modes of severe plastic deformation, equal-channel angular pressing (ECAP) and high-pressure torsion (HPT). ECAP was performed using 4, 16 and 24 passes, and HPT was performed using 1/2, 1 and 10 turns. The results show that while recovery occurs during both ECAP and HPT processing, copper shows a faster recovery rate with HPT processing than ECAP. The occurrence of recovery was observed at an equivalent strain exceeding ～12 that led to an enhancement in the uniform plastic deformation. The influence of recovery behaviour on the mechanical properties was investigated using X-ray diffraction, microhardness and tensile testing.

机译：纯度为99.95wt。％的无氧铜在室温下通过两种严重的塑性变形模式（等通道角挤压（ECAP）和高压扭转（HPT））严重变形。使用4、16和24遍进行ECAP，使用1 / 2、1和10匝进行HPT。结果表明，尽管在ECAP和HPT处理过程中都发生恢复，但是铜的HPT处理过程显示出比ECAP更快的恢复速率。在超过〜12的当量应变下观察到恢复的发生，这导致均匀塑性变形的增强。使用X射线衍射，显微硬度和拉伸试验研究了恢复行为对机械性能的影响。

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《Journal of Materials Research and Technology》 |2017年第4期|共9页
作者
Meshal Y. Alawadhi; Shima Sabbaghianrad; Yi Huang; Terence. G. Langdon;
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中图分类工程材料学;
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DuctilityEqual-channel angular pressingHigh-pressure torsionRecoveryStrain rate sensitivityWork hardening;

机译：延展性等径角挤压高压扭力恢复应变率敏感性工作硬化;

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1. Evolution of Homogeneity in Oxygen-free Copper Processed by Either ECAP or HPT [J] . M.Y. Alawadhi, Y. Huang, T.G. Langdon Reviews on Advanced Materials Science . 2017,第1a2期

机译：ECAP或HPT处理的无氧铜的均质性演变
2. The influence of ECAP and HPT processing on the microstructure evolution, mechanical properties and tribology characteristics of an Al6061 alloy [J] . Mohamed Ibrahim Abd El Aal Journal of Materials Research and Technology . 2020,第6期

机译：ECAP和HPT处理对AL6061合金的微观结构演化，力学性能和摩擦学特性的影响
3. INFLUENCE OF NUMBER OF PASSES, PROCESSING ROUTE AND AGE HARDENING ON MICROSTRUCTURE, MECHANICAL AND TRIBOLOGICAL PROPERTIES OF ECAPED ALUMINIUM ALLOY ADAPTED DESIGN OF EXPERIMENTS THROUGH TAGUCHI TECHNIQUE [J] . P. SURESHKUMAR, V. C. UVARAJA, S. RAJAKARUNAKARAN Journal of the Balkan Tribological Association . 2019,第2期

机译：通过，加工途径和年龄硬化对微观结构的影响，通过TAGUCHI技术对微观结构，机械和摩擦学特性进行了实验设计
4. Influence off HPT Processing and Post-HPT Aging on Microstructure and Mechanical Properties of Al-Zn alloy [C] . Ali ALHAMIDI, Zenji HORITA, Shoichi HIROSAWA 金属学会春期 . 2013

机译：影响HPT加工及后HPT老化对Al-Zn合金的微观结构和力学性能
5. Microstructure and mechanical properties of SPD processed nanocrystalline tantalum. [D] . Li, Gang. 2008

机译：SPD处理的纳米晶钽的微观结构和力学性能。
6. Local Mechanical Properties and Microstructure of EN AW 6082 Aluminium Alloy Processed via ECAP–Conform Technique [O] . Radek Procházka, Peter Sláma, Jaromír Dlouhý, 2020

机译：ECAP-Conform技术处理EN AW 6082铝合金的局部力学性能和组织
7. Direct influence of recovery behaviour on mechanical properties in oxygen-free copper processed using different SPD techniques: HPT and ECAP [O] . Meshal Y. Alawadhi, Shima Sabbaghianrad, Yi Huang, 2017

机译：回收行为对使用不同spD技术处理的无氧铜的机械性能的直接影响：HpT和ECap

Direct influence of recovery behaviour on mechanical properties in oxygen-free copper processed using different SPD techniques: HPT and ECAP

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