The Investigation of the Corrosion Resistance of Al/Alumina Composites Fabricated Via ARB Process
Subject Areas :Ali Jahangiri Sadri 1 , Mohammad Heydari Vini 2 , Saeed Daneshmand 3
1 - MsC.Student Department of Mechanical Engineering, Majlesi Branch, Islamic Azad University, Isfahan, Iran
2 - Assistant Professor, Department of Mechanical Engineering, Mobarakeh Branch, Islamic Azad University, Mobarakeh, Isfahan, Iran
3 - Associate Professor, Department of Mechanical Engineering, Majlesi Branch, Islamic Azad University, Isfahan, Iran.
Keywords: Corrosion, Metal matrix composite, ARB, Alumina Particles, AA1060 aluminum alloy,
Abstract :
Metal matrix composites, high mechanical performance, usability at high temperatures, good wear resistance and low creep rate. This type of composite manufacturing method is very important. Among manufacturing processes, ARB process as a method of applying severe plastic deformation is used on the sheets. In this study 5Wt. % Al/alumina composites fabricated by accumulative roll bonding process up to eight steps using Al1060. Microstructure, mechanical properties and corrosion behavior of the composite were studied by scanning electron microscopy (SEM), potentiodynamic polarization and electrochemical impedance spectroscopy (EIS), measurement in 3.5wt% NaCl solution. Corrosion behavior of the composite revealed a considerable improvement in the main electrochemical parameters, as a result of enhancing influence of cold rolling. Also, the electrochemical experiments showed that corrosion resistance of samples increasing with increasing the number of ARB cycles. After 8- cycle ARB have a low corrosion density in comparison with high corrosion density of annealed specimens.
[1] م. طالبیان، م. علیزاده و م. احتشام زاده، "بررسی اثرات نورد و آنیل بر روی رفتارهای کششی و خوردگی کامپوزیت چندلایه آلومینیوم/فولاد"، مواد پیشرفته در مهندسی، سال 33، شماره 2، 1393.
[2] م. ر. رضائی، م. ر. طرقینژاد و ف. اشرفی زاده، "مدل سازی و پیش بینی استحکام تسلیم آلیاژ آلومینیم 6061 پس از انجام فرایند نورد تجمعی"، فرآیندهای نوین در مهندسی مواد، دوره 12، شماره 3، صفحه 45-56، 1397.
[3] M. Reihanian, S. M. Lari Baghal, F. Keshavarz Haddadian & M. H. Mohammad Paydar, "A Comparative Corrosion Study of Al/Al2O3-SiC hybrid composite Fabricated by Accumulative Roll Bonding (ARB)", Journal of Ultrafine Grained and Nanostructured Mterials, vol. 49, no.1, pp. 29-35, 2016.
[4] ا. ح. اسلامی، س. م. زبرجد و م. م. مشکسار، "بررسی رفتار ساختاری، مکانیکی و الکتریکی کامپوزیت لایهای مس تولید شده به روش اتصال نورد تجمعی (ARB)"، فرآیندهای نوین در مهندسی مواد، دوره 9، شماره 1، صفحه 1-7، 1394.
[5] O. Bouaziz, Y. Estrin & H. S. Kim, "Severe Plastic Deformation by The Cone-Cone Method: Potential For Producing Ultrafine Grained Sheet Material", Metallurgical Research & Technology, vol. 104, no.6, pp. 318-322, 2007.
[6] J. Yin, J. Lu, H. Ma & Z. Pengsheng, "Nanostructural Formation of Fine Grained Aluminum Alloy by Severe Plastic Deformation at Cryogenic Temperature", Materials Science, vol. 39, pp. 2851-2854, 2004.
[7] S. M. Lee & C. G. Kang, "Effect of Solid Fraction on Formability and Mechanical Properties In A Vertical-Type Rheo Squeeze-Casting Process", Proc Inst Mech Eng Part B J Eng. Manuf, vol. 225, pp. 184-196, 2011.
[8] H. Roven, M. Liu, Y. Chen, J. Hjelen, W. Qifn, M. Karlsen & Y. Yu, "Network-Shaped Fine- Grained Microstructure and High Ductility of Magnesium Alloy Fabricated By Cyclic Extrusion Compression," Scripta Mater, vol. 58, no.4, pp. 311-314, 2008.
[9] M. Abdolahi Sereshki, B. Azad & E. Borhani, "Corrosion Behavior of Al-2wt%Cu Alloy Processed By Accumulative Roll Bonding (ARB) Process", Ultrafine Grained and Nanostructured Mterials, vol. 49, no.1, pp. 22-28, 2016.
[10] W. Wei, K. X. Wei & Q. B. Du, "Corrosion and Tensile Behaviors of Ultra-Fine Grained Al-Mn Alloy Produced By Accumulative Roll Bonding", Materials Science and Engineering: A. 454-455, pp. 536-541, 2007.
[11] M. F. Naeini, M. H. Shariat & M. Eizadjou, "On the Chlorideinduced Pitting of Ultra Fine Grains 5052 Aluminum Alloy Produced By Accumulative Roll Bonding Process", Alloys and Compounds, vol. 509, no.4, pp. 696-700, 2011.
[12] E. Darmiani, I. Danaee, M. A. Golozar & M. R. Toroghinejad, "Corrosion Investigation of Al–Sic Nano-Composite Fabricated By Accumulative Roll Bonding (ARB) Process," Alloys and Compounds, vol. 552, no.3, pp. 1-9, 2013.
[13] M. Eizadjou, H. Fattahi, A. K. Talachi, H. D. Manesh, K. Janghorban & M. H. Shariat, "Pitting Corrosion Susceptibility of Ultrafine Grains Commercially Pure Aluminium Produced by Accumulative Roll Bonding Process", Corrosion Engineering Science and Technology, vol. 47, no.1, pp.19-24, 2012.
[14] M. Reihanian, S. M. L. Baghal, F. Keshavarz Haddadian & M. Hosein Paydar, "A Comparative Corrosion Study of Al/Al2O3-SiC Hybrid CompositeFabricated by Accumulative Roll Bonding (ARB)", Ultrafine Grained and Nanostructured Materials, vol. 49, no.1, p. 29-35, 2016.
[15] م. سالاری، "تشکیل دانههای با ابعاد نانو و تکامل بافت حین نورد تجمعی ورق مسی"، فرآیندهای نوین در مهندسی مواد، دوره 4، شماره 3، صفحه 17-23، 1389.
[16] M. Mahdi Taherian, M. Yousefpour & E. Borhani, "The effect of ARB process on corrosion behavior of nanostructured aluminum alloys in Na2HPO4·12H2O and Zn(NO3)2·6H2O PCMs", Engineering Failure Analysis, vol. 107, pp. 104222, 2020.
[17] M. Heydari Vini & S. Daneshmand, "Corrosion of Al/TiO2 Composites fabricated by accumulative roll bonding", Materials performance, vol. 59. no. 11, pp. 28-31, 2020.
_||_