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This work investigates the distribution and the effect of synthesized nano TiO2, micro SiC and B4C particle on the aluminium (A356) metal matrix composites (AMMC). The consequences of this reinforcement on the mechanical, tribology and corrosion behaviour of the AMMC matrix are analyzed. The nano TiO2 is synthesized by wet chemistry sol-gel process, and the reinforcements are added with A-356 by stir casting method. The ASTM standard test specimens are characterized through mechanical, tribology, and corrosion tests for identifying their properties. The metallurgical characterization has been deliberated through XRD and SEM with EDS. in the tensile test results, the percentage of elongation is dropped drastically by 73% due to the enhanced volume % of nano TiO2, micro SiC, and B4C particles. The particle addition of the wear rate and weight loss are reduced at different volume percentages of the A356 matrix. The time plays a significant role in the corrosion rate. The test results also confirm that the corrosion rate is comparatively minimum in 24 hrs (592.35 mm/yr) duration than the 48 hrs (646.368 mm/yr) in both the solutions.
Wydawca
Czasopismo
Rocznik
Tom
Strony
871--880
Opis fizyczny
Bibliogr. 21 poz., fot., rys., tab.
Twórcy
autor
- B.S. Abdur Rahman Crescent Institute of Science and Technology, Department of Mechanical Engineering, Chennai-600 048, Tamilnadu, India
autor
- B.S. Abdur Rahman Crescent Institute of Science and Technology, Department of Mechanical Engineering, Chennai-600 048, Tamilnadu, India
autor
- Vellore Institute of Technology, School of Mechanical Engineering, Vellore-632014, Tamilnadu, India
autor
- Vellore Institute of Technology, School of Mechanical Engineering, Vellore-632014, Tamilnadu, India
Bibliografia
- [1] S.N.A. Safri, M.T.H. Sultan, M. Jawaid, K. Jayakrishna, Impact behavior of hybrid composites for structural applications: a review, Comp. Part B Eng. 133, 112-21 (2017). DOI.org/10.1016/j.CompPartB.2017.09.008
- [2] Ramanathan Arunachalam, Pradeep Kumar Krishnan, Rajaraman Muraliraja. A Review on the production of metal matrix composites through stir casting-furnace design, properties, challenges, and research opportunities, J. Manuf. Proc. 42, 213-245 (2019).
- [3] M. Kok, Production and Mechanical Properties of Al2O3 particle-reinforced 2024 aluminium alloy composites, J. Mater. Process. Tech. 161, 381-7 (2005).
- [4] A.M.K. Esawi, K. Morsi, A. Sayed, A.A. Gawad, P. Borah, Fabrication and properties of dispersed carbon nanotube-aluminum composites, Mater. Sci. Eng. A. 508 (1), 167-73 (2009).
- [5] I. Sridhar, K.R. Narayanan, Processing and characterization of MWCNT reinforced aluminum matrix composites, J. Mater. Sci. 44 (7), 1750-6 (2009).
- [6] L. Wang, H. Choi, J.M. Myoung, W. Lee, Mechanical alloying of multi-walled carbon nanotubes and aluminium powders for the preparation of carbon/metal composites, Carbon. 47 (15), 3427-33 (2009).
- [7] D.J. Woo, F.C. Heer, L.N. Brewer, J.P. Hooper, S. Osswald, Synthesis of nanodiamond-reinforced aluminum metal matrix composites using cold-spray deposition, Carbon. 86, 15-25 (2015).
- [8] S. Balasivanandha Prabu, L. Karunamoorthy, S. Kathiresan, B. Mohan, Influence Of Stirring Speed and Stirring Time on Distribution of Particles in Cast Metal Matrix Composite, J. Mater. Proc. Tech, 171, 268-273 (2006).
- [9] R. Mishra Sheok, R.K. Srivastava. Tribological behaviour of Al-6061/SiC metal matrix composite by Taguchi’s techniques, Int. Jour. Scic. Res. Pub. 2 (10), 1-8 (2012).
- [10] Jigar Suthar, K.M. Patel. Processing issues, machining, and applications of aluminum metal matrix composites, Mat. Manuf. Proc. 33 (5), 499-527 (2018).
- [11] A.S. Vencl, F. Vučetić, B. Bobić, J. Pitel, I. Bobić, Tribological characterization in dry sliding conditions of compocasted hybrid A356/SiCp/Grp composites with graphite macroparticles. Int Jour Adv Manuf Tech. Part of Springer Nature, (2018).
- [12] B.K. Prasad, O.P. Modi, Sliding wear response of zinc based alloy as affected by suspended solid lubricant particles in oil lubricant, Tribology - Materials, Surf. & Interf. 2(2), 84-91 (2008).
- [13] H. Mazahery, H. Abdizadeh, R. Baharvandi, Development of high-performance A356/Nano-Al2O3 composites, Mat. Sci. Engg. A. 518, 61-64 (2009).
- [14] Ali Mazahery, Mohsen Ostad Shabani. Influence of the hard-coated B4C particulates on wear resistance of Al-Cu alloys, Comp: Part B. 43, 1302-1308 (2012).
- [15] M. Karbalaei Akbari, H.R. Baharvandi, K. Shirvanimoghaddam, Tensile and fracture behavior of nano/micro TiB2 particle reinforced, Mat. Desn. 66, 150-161 (2015).
- [16] R. Senthil Kumar, K. Prabu, G. Rajamurugan, P. Ponnusamy, Comparative analysis of particle size on the mechanical and metallurgical characteristics of Al2O3 reinforced sintered and extruded AA2014 nano hybrid composite, Jour. Comp. Mat. 53 (28-29), 4369-4384(2019). DOI: 10.1177/0021998319856676
- [17] B.K. Prasad, Effects of some solid lubricant particles and their concentration in oil towards controlling wear performance of leaded tin bronze bush, Can. Metal Quar. 51 (2), 210-220 (2012). doi: 10.1179/1879139511Y.0000000030
- [18] P. Sangaravadivel, G. Rajamurugan, P. Krishnasamy, Significance of tungsten disulfide on the mechanical and machining characteristics of phosphor bronze metal matrix composite, Advanced Composites Letters 29, 1-13 (2020). DOI: 10.1177/2633366X20962496
- [19] A. Vencl, I. Bobic, S. Arostegui, B. Bobic, A. Marinković, M. Babić, Structural, mechanical and tribological properties of A356 aluminum alloy reinforced with Al2O3, SiC, and SiC + graphite particles. J. All and Comp. 506, 631-639 (2010).
- [20] A. Singh, G. Rajamurugan, K. Prabu, D. Dinesh, Surface modification of aluminium alloy 5083 reinforced with Cr2O3/TiO2 by friction stir process, SAE Tech. Paper, 2019-28-0179, 1-7 (2019). DOI: 10.4271/2019-28-0179
- [21] S. Jaiswal, G. Rajamurugan, P. Krishnasamy, Y. Shaswat, M. Kaushik, Mechanical and Corrosion Behaviour of Al 7075 Composite Reinforced with TiC and Al2O3 Particles, SAE Tech. Paper, 2019-28-0094 (2019). DOI.org/10.4271/2019-28-0094.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bfd6567e-e540-4e4d-ad97-26d77d4be776