Microstructure influencing physical and mechanical properties of electrolytic tough pitch copper produced by equal channel angular pressing-Reference-Cited by-同舟云学术

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Microstructure influencing physical and mechanical properties of electrolytic tough pitch copper produced by equal channel angular pressing

Published:2013-12 Issue: Volume:67 Page:9-14
ISSN:0167-6636
Container-title:Mechanics of Materials
language:en
Short-container-title:Mechanics of Materials

Author:

Higuera Oscar F.,Cabrera José M.

Publisher

Elsevier BV

Subject

Mechanics of Materials,General Materials Science,Instrumentation

Reference25 articles.

1. Grain boundary diffusion and recrystallization in ultrafine grain copper produced by equal channel angular pressing;Amouyal;Acta Materialia,2008

2. Texture evolution in ECAE;Beyerlein;Progress in Materials Science,2009

3. Stored energy, vacancies and thermal stability of ultra-fine grained copper;Cao;Materials Science and Engineering A,2008

4. Microstructures and properties of copper processed by ECAP for 1–16 passes;Dalla Torre;Acta Materialia,2004

5. Effect of the route and strain of equal-channel angular pressing on structure and properties of oxygen-free copper;Dobatkin;Materials Science and Engineering A,2007

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1. Comparison of a copper processed by asymmetric unidirectional rolling (AUR) and cross rolling (ACR): Strain distribution, microstructure, texture, and mechanical properties;Materials Chemistry and Physics;2024-01

2. Effect of microstructure refinement of pure copper on improving the performance of electrodes in electro discharge machining (EDM);Scientific Reports;2023-10-04

3. A study on microstructure and recrystallization kinetics on low deformed pure ETP copper;Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications;2022-05-31

4. Effect of Hard Cyclic Viscoplastic Deformation on the Microstructure, Mechanical Properties, and Electrical Conductivity of Cu-Cr Alloy;Journal of Materials Engineering and Performance;2022-05-23

5. Performance Evaluation of Electrical Discharge Machining using Ultrafine-Grained Cu Electrodes Processed by Equal Channel Angular Pressing and Deep Cryogenic Treatment;Journal of Materials Engineering and Performance;2020-11-30

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