PROCESSING OF ALUMINIUM METAL MATRIX COMPOSITES- A REVIEW

Authors

  • Saravanan S Department of Mechanical Engineering, St. Joseph’s College of Engg., & Tech., Tanjore – 624204, India.
  • Senthilkumar P Department of Mechanical Engineering, K.S.R College of Engineering, Tiruchengode - 637215, India.
  • Ravichandran M Department of Mechanical Engineering, Chendhuran College of Engg., & Tech, Pudukkottai - 622507, India
  • Anandakrishnan V Department of Production Engineering, National Institute of Technology, Tiruchirappalli - 620015, India.
  • Balan A V Department of Mechanical Engineering, K.S.R College of Engineering, Tiruchengode - 637215, India

Keywords:

AA 6063, TiC, stir casting process

Abstract

Aluminum matrix composites are the competent material in the industrial world. They are widely used in aerospace, automobile, marine industries, etc. due to their excellent mechanical properties. Development of these lightweight materials has provided the automotive industry with numerous possibilities for vehicle weight reduction. The various routes are used to synthesize AMCs. Among the various manufacturing processes, the conventional stir casting is an attractive processing method for producing AMCs as it is relatively inexpensive and offers a wide range of materials and processing conditions. In this review paper we have discussed about aluminum matrix composites and its synthesizing techniques with the help of previous research reports. The current research activities going in this field is also discussed in this paper.

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References

Pramod S L, Srinivasa R, Bakshi and Murty B S (2014), “Aluminum-based cast in situ composites: a review. Journal of Materials Engineering and Performance”, Vol.24(6) 2185–2207.

Lee K B, Ahn J P and Kwon H (2001), “Characteristics of AA 6061/BN composite fabricated by pressure less infiltration technique”, Metallurgical and Materials Transactions A, Vol.32(4), 1007-1018.

Hirth S M, Marshall G J, Court S A and Lloyd D J (2001), “Effects of Si on the aging behavior and formability of aluminium alloys based on AA6016” , Materials Science and Engineering A, Vol.319‐321, 452‐456.

Li P, Kandalova E G and Nikitin V I (2005), “In situ syntheses of Al-TiC in aluminum melt,” Materials Letters, Vol. 59, 2545-2548.

Sravan Kumar Josyula and Narala Suresh Kumar Reddy (2014), “A brief review on manufacturing of Al-TiC MMC”, Advanced Materials Research, Vol.980, 62-68.

El Zhang B, Yang S, Y Zeng, Li Q C and Ma M Z (1998), “Experimental study on reaction synthesis of TiC in Al-Ti-C system”, ACTA Metallurgic Sinica, Vol. 11(4), 255-260.

Alpas A T and Zhang J (1994), “Effect of microstructure (particulate size and volume fraction) and counter face material on the sliding wear resistance of particulate reinforced aluminum matrix composites,” Metallurgical and Materials Transactions A, Vol. 25(5), 969-983.

Omar S Salih, Hengan Ou, Sun W and Mc Cartney D G (2015), “A review of friction stirs welding of aluminium matrix composites,” Materials and Design, Vol. 86, 61-71.

Himanshu Kala, Merb K K S and Sandeep Kumar (2014), “A review on mechanical and tribological behaviors of stir cast aluminum matrix composites,” Procedia Materials Science, Vol. 6, 1951-1960.

Waldemar A Monteiro, Iara M Espósito, Ricardo B Ferrari and Sidnei J Buso (2011), “Micro structural and mechanical characterization after thermo mechanical treatments in 6063 aluminum alloy,” Materials Sciences and Applications, Vol. 2, 1529-1541.

Gao M X, Pan Y, Oliveira F J, Baptista J L and Vieira J M (2004), “Interpenetrating microstructure and fracture mechanism of NiAl/TiC composites by pressure less melt infiltration,” Materials Letters, Vol. 58, 1761-1765.

Sozhamannan G G, Balasivanandha prabu S and Venkatagalapathy V S K (2012), “Effect of processing parameters on metal matrix composites: stir casting process,” Journal of Surface Engineered Materials and Advanced Technology, Vol. 2, 11-15.

Farouk Shehata, Nahed ElMahallawy, Mohamed Arab and Mohamed Agwa (2013), “Equal channel angular pressing of Al-SiC composites fabricated by stir casting,” Scientific Research Open Journal of Metal, Vol. 3, 26-33.

Alaneme K K (2012), “Influence of thermo-mechanical treatment on the tensile behavior and CNT evaluated fracture toughness of borax premixed SiCp reinforced AA 6063 composites,” International Journal of Mechanical and Materials Engineering, Vol. 7(1), 96-100.

Nath S K and Das U K (2006), “Effect of microstructure and notches on the fracture toughness of medium carbon steel,” Journal of Naval Architecture and Marine Engineering, Vol. 3, 15-22.

Ranjbaran M M (2010), “Low toughness fracture in Al7191- 20%SiCp aluminium matrix composite,” European Journal of Scientific Research, Vol. 41(2), 261-272.

Milan M T and Bowen P (2004), “Tensile and fracture toughness properties of SiCp reinforced al alloys: Effects of particle size, particle volume fraction and matrix strength,” Journal of Materials Engineering and Performance, Vol. 13(6), 775-783.

Kalaiselvan K, Murugan N and Siva Parameswaran (2011), “Production and characterization of AA6061-B4C stir cast composite,” Materials and Design, Vol. 32, 4004-4009.

Fatih Toptan, Ayfer Kilicarslan, Ahmet Karaaslan, Mustafa Cigdem and Isil Kerti (2010), “Processing and micro structural characterization of AA 1070 and AA 6063 matrix B4Cp reinforced composites,” Materials and Design, Vol. 31, S87-S91.

Baki Karamıs M and Halıcı I (2007), “The effects of homogenization and recrystallization heat treatments on low grade cold deformation properties of AA 6063 aluminum alloy,” Materials Letters, Vol. 61, 944-948.

Brabazon D, Browne D J and Carr A J (2002), “Mechanical stir casting of aluminium alloys from the mushy state: process, microstructure and mechanical properties,” Materials Science and Engineering A, Vol. 326, 370-381.

Hashim J, Looney L and Hashmi M S J (1999), “Metal matrix composites: production by the stir casting method,” Journal of Materials Processing Technology, Vol. 92-93, 1- 7.

Surappa M K (1997), “Microstructure evolution during solidification of DRMMC,” Journal of Materials Processing Technology, Vol. 63, 325-333.

Kerti I (2007), “Production of TiC reinforced aluminum composites with the addition of elemental carbon,” Materials Letters, Vol. 59, 3795-3800.

Bedir F (2007), “Characteristic properties of Al-Cu-SiCp and Al-Cu-B4Cp composites produced by hot pressing method under nitrogen atmosphere,” Materials Design, Vol. 28, 1238-1244.

Kalkanli A and Yılmaz S (2008), “Synthesis and characterization of aluminum alloy 7075 reinforced with silicon carbide particulates,” Materials Design, Vol. 29, 775-780. .

Kerti I and Toptan F (2008), “Micro structural variations in cast B4C reinforced aluminium matrix composites (AMCs),” Materials Letters, Vol. 62, 1215-1218.

Cho Y, Lee J, Kim H, Kim J and Kim S (2013), “Feasible process for producing in situ Al/TiC composites by combustion reaction in an Al melts,” Metals Materials International, Vol. 19, 1109-1116.

Rai R N, Rao A K P, Dutta, G L and Chakraborty M (2013), “Forming behavior of Al-TiC in-situ composites,” Materials Science Forum, Vol. 765, 418-422.

Soltani N, Bahrami A and Pech-canul M I (2013), “The effect of Ti on mechanical properties of extruded in-situ Al- 15% Mg2Si composite,” Metallurgical and Materials Transactions A, Vol. 44, 4366-4373.

Birol Y (2008), “In situ synthesis of Al-TiCp composites by reacting K2TiF6 and particulate graphite in molten aluminium,” Journal of Alloys and Compounds, Vol. 454, 110-117.

Jian-Guo LI, Huang Min, Ma MO, YE Wei, LIU Dong Yu, Song Dong Ming, BAI Bingzh and Fang Hong-Sheng (2006), “Performance comparison of AlTiC and AlTiB master alloys in grain refinement of commercial and high purity aluminum,” Transactions of Nonferrous Metals Society of China, Vol. 16, 242-253.

Peijie Li, Kandalova E G, Nikitin V I, Makarenko A G, Luts A R and Zhang Yanfei (2003), “Preparation of Al-TiC composites by self-propagating high temperature synthesis,” Scripta Materialia, Vol. 49, 699-703.

Herman Pratikno, Mariyam Jameelah Ghazalia and Daud A R (2012), “Effects of manganese addition on tensile strength of AA6063 alloy for marine application,” Journal Technology (Sciences and Engineering), Vol. 59(2), 87-89.

Sallahauddin Attar, Madeva Nagaral, Reddappa H N and Auradi V (2015), “Effect of B4C particulates addition on wear properties of Al7025 alloy composites,” American Journal of Materials Science, Vol. 5(3C), 53-57.

Uvaraja V C and Natarajan N (2012), “Tribological characterization of stir cast hybrid composite aluminium 6061 reinforced with SiC and B4C particulates,” European Journal of Scientific Research, Vol. 76, 539-552.

Saravanakumar A, Sasikumar P and Sivasankaran S (2014), “Synthesis and mechanical behavior of AA 6063-x wt. % Al2O3-1% Gr (x = 3, 6, 9 and 12 wt. %) hybrid composites,” Procedia Engineering, Vol. 97, 951-960.

Anandkumar, Mahapatra M M and Jha P K (2014), “Effect of machining parameters on cutting force and surface roughness of in situ Al-4.5%Cu/TiC metal matrix composites,” Measurement, Vol. 48, 325-332.

Patel P R, Patel B B and Patel V A (2013), “Effect of machining parameters on surface roughness for 6063 Al-TiC (5and10%) metal matrix composites using RSM,” International Journal of Research in Engineering and Technology, Vol. 2(1), 65-71.

Yigezu B S, Mahapatra M M and Jha P K (2013), “On modeling the abrasive w ear characteristics of in situ Al- 12%Si/TiC composites,” Materials and Design, 50, 277-284.

Allwyn Kingsly Gladston J, Mohamed Sheriff N, Dinaharan I and David Raja Selvam J (2015), “Production and characterization of rich husk ash particulate reinforced AA6061 aluminum alloy composites by compocasting,” Transactions of Nonferrous Metals Society of China , Vol. 25, 683-691.

Rajeshkumar, Gangaram Bhandare and Parshuram Sonawane M (2013), “Preparation of aluminium matrix composite by using stir casting method,” International Journal of Engineering and Advanced Technology, Vol. 3(2), 61-65.

Radhika N, Subramanian R and Venkatprasat S (2011), “Tribological behavior of aluminium/alumina/ graphite hybrid metal matrix composite using Taguchi’s techniques,” Journal of Minerals and Materials Characterization and Engineering, Vol. 10(5), 427-443.

Christy T V, Murugan N and Kumar S (2010), “A Comparative study on the microstructures and mechanical properties of Al 6061 alloy and the MMC Al 6061/TiB2/12P,” Journal of Minerals and Materials Characterization and Engineering, Vol. 9(1), 57-65.

Ram Naresh Rai, Datta G L, Chakraborty M and Chattopadhyay A B (2006), “A study on the machinability behavior of Al-TiC composite prepared by in situ technique,” Materials Science and Engineering, Vol. 428A, 34-40.

Michaelrajan H B, Ramabalan S, Dinaharan I and Vijay S J (2012), “Synthesis and characterization of in situ formed titanium diboride particulate reinforced AA7075 aluminum alloy cast composites,” Materials and Design, 1-8.

Gavgali M, Totik Y and Sadeler R (2003), “The effects of artificial aging on wear properties of AA 6063 alloy,” Materials Letters, Vol. 57, 3713-3721.

Herman Pratikno (2015), “Aging treatment to increase the erosion-corrosion resistance of AA6063 alloys for marine application,” Procedia Earth and Planetary Science, Vol. 14, 41-46.

Lekatou A, Karantzalis A E, Evangelou A, Gousia V, Kaptay G, Gacsi Z, Baumli P and Simon A (2015), “Aluminium reinforced by WC and TiC nanoparticles (ex-situ) and aluminide particles (in-situ): Microstructure, wear and corrosion behavior,” Materials and Design, Vol. 65, 1121- 1135.

Alaneme K K and Bodunrin M O (2011), “Corrosion behavior of alumina reinforced aluminium (6063) metal matrix composites,” Journal of Minerals and Materials Characterization and Engineering, Vol. 10(12), 1153-1165.

Kamal Jayaraj R, Malarvizhi S and Balasubramanian V (2017), “Optimizing immersion corrosion test parameters to attain minimum corrosion rate in the stir zone of friction stir welded AA6061 aluminium alloy”, Journal of Manufacturing Engineering, Vol. 12( 2), 68-76.

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Published

2017-09-01

How to Cite

[1]
“PROCESSING OF ALUMINIUM METAL MATRIX COMPOSITES- A REVIEW”, JME, vol. 12, no. 3, pp. 130–141, Sep. 2017, Accessed: Nov. 21, 2024. [Online]. Available: https://smenec.org/index.php/1/article/view/163

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