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Research Article
An Experimental Investigation of Aluminium with Silicon Carbide and Titanium Dioxide as Reinforced Metal Matrix Composites
Prasanna Venkatesh M1
Ram Prabhu D2
Prasad M3
Manjunathan R4
Yogesh V5
123Department of Mechanical Engineering, Vel Tech High Tech Engineering College, Chennai, Tamil Nadu, India. 45 Asst.Prof, Department of Mechanical Engineering, Vel Tech High Tech Engineering College, Chennai, Tamil Nadu, India
Published Online: November-December 2022
Pages: 01-03
Cite this article
No DOIReferences
[1] Perov, B.V.; Khoroshilova, I.P. Hybrid Composite Materials BT—Polymer Matrix Composites; Shalin, R.E., Ed.; Springer: Dordrecht,
The Netherlands, 1995; pp. 269– 304, ISBN 978-94-011-0515-6.
[2] Yamada, A.; Sasabe, H.; Osada, Y.; Shiroda, Y. Concept of hybrid materials, hybrid materials-concept and case studies. ASM Int.1989, 18.
[3] Chavhan, G.R.; Wankhade, L.N. Improvement of the mechanical properties of hybrid composites prepared by fibers, fiber-metals, and
nano- filler particles—A review. Mater. Today Proc. 2019, 27, 72–82.
[4] Vieira, C.A.B.; Susin, S.B.; Freire, E.; Amico, S.C.; Zattera, A.J. Characterization of hybrid composites produced with mats made
using different methods. Mater. Res. 2009, 12, 433–436.
[5] Pitchayyapillai, G.; Seenikannan, P.; Raja, K.R.; Chandrasekaran, K. Al6061 Hybrid Metal Matrix Composite Reinforced with Alumina
and Molybdenum Disulphide. Adv. Mater. Sci. Eng. 2016, 1–9.
[6] Bodunrin, M.O.; Alaneme, K.K.; Chown, L.H. Aluminium matrix hybrid composites: A review of reinforcement philosophies;
Mechanical, corrosion and tribological characteristics. J. Mater. Res. Technol. 2015.
[7] Ahamed, H.; Senthilkumar, V. Hybrid Aluminium Metal Matrix Composites and Reinforcement Materials: A Review. Int. J. Innov. Res.
Sci. Eng. 2016.
[8] Rino, J.J.; Chandramohan, D.; Sucitharan, K.S. An Overview on Development of Aluminium Metal Matrix Composites with Hybrid
Reinforcement. IJSR India Online ISSN 2012.
[9] Bhatia, R.S. An Experimental Analysis of Aluminium Metal Matrix Composite using Al2O3/B4C/Gr Particles. Int. J. Adv. Res.Comput.
Sci. 2017
[10] Mavhungu, S.T.; Akinlabi, E.T.; Onitiri, M.A. Aluminum Matrix Composites for Industrial Use: Advances and Trends. Procedia Manuf.
2017.
[11] Singh, J.; Chauhan, A. Characterization of hybrid aluminum matrix composites for advanced applications—A review. J. Mater.Res.
Technol. 2016.
[12] Kanthavel, K.; Sumesh, K.R.; Saravanakumar, P. Study of tribological properties on Al/Al2O3/MoS2 hybrid composite processed by
powder metallurgy. Alex. Eng. J. 2016.
[13] Murthy, K.V.S.; Girish, D.P.; Varol, T.; Koppad, G.P. Mechanical and thermal properties of AA7075/TiO2 /Fly ash hybrid composites
obtained by hot forging. Prog. Nat. Sci. 2017.
[14] Sambathkumar, M.; Navaneethakrishnan, P.; Ponappa, K.; Sasikumar, K.S.K. Mechanical and Corrosion Behavior of Al7075 (Hybrid)
Metal Matrix Composites by Two Step Stir Casting Process. Lat. Am. J. Solids Struct. 2016.Crystals 2021, 11, 1078 12 of 13
[15] Matli, P.R.; Fareeha, U.; Shakoor, R.A.; Mohamed, A.M.A. A comparative study of structural and mechanical properties of Al-Cu
composites prepared by vacuum and microwave sintering techniques. J. Mater. Res. Technol. 2018, 7, 165–172.
[16] Ghasali, E.; Pakseresht, A.; Rahbari, A.; Eslami-shahed, H.; Alizadeh, M.; Ebadzadeh, T. Mechanical properties and microstructure
characterization of spark plasma and conventional sintering of Al–SiC–TiC composites. J. Alloys Compd. 2016, 666, 366–371.
[17] Khan, A.; Matli, P.R.; Nawaz, M.; Mattli, M.R. Microstructure and Mechanical Behavior of Hot Extruded Aluminum/Tin-Bismuth
Composites Produced by Powder Metallurgy. Appl. Sci. 2020, 10, 2812.
[18] Oghbaei, M.; Mirzaee, O. Microwave Versus Conventional Sintering: A Review of Fundamentals, Advantages and Applications. J.
Alloys Compd. 2010.
[19] Chandrasekaran, S.; Ramanathan, S.; Basak, T. Microwave material processing—A review. AIChE J. 2012, 58, 330–363.
[20] Matli, P.; Shakoor, R.; Amer Mohamed, A.; Gupta, M. Microwave Rapid Sintering of Al-Metal Matrix Composites: A Review on the
Effect of Reinforcements, Microstructure and Mechanical Properties. Metals 2016, 6, 143.
The Netherlands, 1995; pp. 269– 304, ISBN 978-94-011-0515-6.
[2] Yamada, A.; Sasabe, H.; Osada, Y.; Shiroda, Y. Concept of hybrid materials, hybrid materials-concept and case studies. ASM Int.1989, 18.
[3] Chavhan, G.R.; Wankhade, L.N. Improvement of the mechanical properties of hybrid composites prepared by fibers, fiber-metals, and
nano- filler particles—A review. Mater. Today Proc. 2019, 27, 72–82.
[4] Vieira, C.A.B.; Susin, S.B.; Freire, E.; Amico, S.C.; Zattera, A.J. Characterization of hybrid composites produced with mats made
using different methods. Mater. Res. 2009, 12, 433–436.
[5] Pitchayyapillai, G.; Seenikannan, P.; Raja, K.R.; Chandrasekaran, K. Al6061 Hybrid Metal Matrix Composite Reinforced with Alumina
and Molybdenum Disulphide. Adv. Mater. Sci. Eng. 2016, 1–9.
[6] Bodunrin, M.O.; Alaneme, K.K.; Chown, L.H. Aluminium matrix hybrid composites: A review of reinforcement philosophies;
Mechanical, corrosion and tribological characteristics. J. Mater. Res. Technol. 2015.
[7] Ahamed, H.; Senthilkumar, V. Hybrid Aluminium Metal Matrix Composites and Reinforcement Materials: A Review. Int. J. Innov. Res.
Sci. Eng. 2016.
[8] Rino, J.J.; Chandramohan, D.; Sucitharan, K.S. An Overview on Development of Aluminium Metal Matrix Composites with Hybrid
Reinforcement. IJSR India Online ISSN 2012.
[9] Bhatia, R.S. An Experimental Analysis of Aluminium Metal Matrix Composite using Al2O3/B4C/Gr Particles. Int. J. Adv. Res.Comput.
Sci. 2017
[10] Mavhungu, S.T.; Akinlabi, E.T.; Onitiri, M.A. Aluminum Matrix Composites for Industrial Use: Advances and Trends. Procedia Manuf.
2017.
[11] Singh, J.; Chauhan, A. Characterization of hybrid aluminum matrix composites for advanced applications—A review. J. Mater.Res.
Technol. 2016.
[12] Kanthavel, K.; Sumesh, K.R.; Saravanakumar, P. Study of tribological properties on Al/Al2O3/MoS2 hybrid composite processed by
powder metallurgy. Alex. Eng. J. 2016.
[13] Murthy, K.V.S.; Girish, D.P.; Varol, T.; Koppad, G.P. Mechanical and thermal properties of AA7075/TiO2 /Fly ash hybrid composites
obtained by hot forging. Prog. Nat. Sci. 2017.
[14] Sambathkumar, M.; Navaneethakrishnan, P.; Ponappa, K.; Sasikumar, K.S.K. Mechanical and Corrosion Behavior of Al7075 (Hybrid)
Metal Matrix Composites by Two Step Stir Casting Process. Lat. Am. J. Solids Struct. 2016.Crystals 2021, 11, 1078 12 of 13
[15] Matli, P.R.; Fareeha, U.; Shakoor, R.A.; Mohamed, A.M.A. A comparative study of structural and mechanical properties of Al-Cu
composites prepared by vacuum and microwave sintering techniques. J. Mater. Res. Technol. 2018, 7, 165–172.
[16] Ghasali, E.; Pakseresht, A.; Rahbari, A.; Eslami-shahed, H.; Alizadeh, M.; Ebadzadeh, T. Mechanical properties and microstructure
characterization of spark plasma and conventional sintering of Al–SiC–TiC composites. J. Alloys Compd. 2016, 666, 366–371.
[17] Khan, A.; Matli, P.R.; Nawaz, M.; Mattli, M.R. Microstructure and Mechanical Behavior of Hot Extruded Aluminum/Tin-Bismuth
Composites Produced by Powder Metallurgy. Appl. Sci. 2020, 10, 2812.
[18] Oghbaei, M.; Mirzaee, O. Microwave Versus Conventional Sintering: A Review of Fundamentals, Advantages and Applications. J.
Alloys Compd. 2010.
[19] Chandrasekaran, S.; Ramanathan, S.; Basak, T. Microwave material processing—A review. AIChE J. 2012, 58, 330–363.
[20] Matli, P.; Shakoor, R.; Amer Mohamed, A.; Gupta, M. Microwave Rapid Sintering of Al-Metal Matrix Composites: A Review on the
Effect of Reinforcements, Microstructure and Mechanical Properties. Metals 2016, 6, 143.
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