Abstract
Aluminium matrix composites are low density, highly resistive to corrosion, high strength-to-weight ratio, good tribological behaviour with low friction coefficient, etc. Aluminium metal matrix composites contribute to various applications in the aeronautical, automotive and marine industries due to these characteristics. Different experimental investigations was carried on AA8000 fabricated by using the stir casting method, powder metallurgy and advanced processing techniques. Researchers have been observed that the addition of reinforcements considered are synthetic ceramic materials and industrial waste, etc., to significantly improve the mechanical strength at elevated temperature. This paper attempts to review the work done by various investigators in the field of tribo-mechanical and corrosion response in different environment of AA8000 based composites.
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References
Surappa M (2003) Aluminium matrix composites: challenges and opportunities. Sadhana 28(1–2):319–334
Mechanical properties. https://mechanicalc.com/reference/mechanicalproperties-of-materials.
Choi S-M, Awaji H (2005) Nanocomposites—a new material design concept. Sci Technol Adv Mater 6(1):2–10
Cao G, Kobliska J, Konishi H, Li X (2008) Tensile properties and microstructure of sic nanoparticle–reinforced mg-4zn alloy fabricated by ultrasonic cavitation—based solidification processing. Metall Mater Trans A 39(4):880–886
Yakubu O, Usman I, Aliyu A, Emmanuel O (2016) Influence of iron contentand plastic deformation on the mechanical properties of 8011-type Al–Fe–Si alloy. Niger J Technol 35(1):122–128
Shankar BL, Anil K, Karabasappagol PJ (2016) A study on effect of graphiteparticles on tensile, hardness and machinability of aluminium 8011 matrix material. In: IOP conference series. materials science and engineering (online), vol 149
Moldovan P, Popescu G, Miculescu F (2004) Microscopic study regarding themicrostructure evolution of the 8006 alloy in the plastic deformation process. J Mater Process Technol 153:408–415
Guo Y, Yi D, Liu H, Wang B, Jiang B, Wang H (2020) Mechanical propertiesand conductivity of graphene/Al-8030 composites with directional distribution of graphene. J Mater Sci 55(8):3314–3328
Patil KL, Ali M, Nagaral M (2014) Studies on al8081-b4c metal matrix composites fabricated by stir casting method. Int J Modern Eng Res 4(7):1–4
Markovina R, Blagojevic B, Vlak F (2009) Bending fatigue behaviour of shotpeened al-li 8090t3 thin plates. Kovov´e materi´aly 47(2):115–120
Smyrak B, Knych T, Mamala A, Uliasz P, Jabl on´ski M (2011) A study of a new generation of multi-functional aluminium alloys for the power industry. Mater Sci Forum 690:439–442, Trans Tech Publ
Fayomi J, Popoola A, Popoola O (2020) Hybrid effect of zrb2+ si3n4 on the microstructure and mechanical properties of aa8011 for service life improvement. Mater Sci Forum 975:171–175 Trans Tech Publ
Fayomi J, Popoola A, Popoola O, Oladijo O, Fayomi O (2020) Understanding the microstructural evolution, mechanical properties, and tribological behavior of aa8011-reinforced nano-si 3 n 4 for automobile application. Int J Adv Manuf Technol 1–10
Fayomi J, Popoola A, Popoola O, Fayomi O (2019) Influence 0f zirconium diboride (Zrb2) on the physio-mechanical behavior of aa8011 alloy base. J Phys: Conf Ser 1378:032044, IOP Publishing
Fayomi J, Popoola A, Oladijo O, Popoola O, Fayomi O (2019) Experimentalstudy of zrb2-si3n4 on the microstructure, mechanical and electrical properties of high grade aa8011 metal matrix composites. J Alloy Compd 790:610–615
Vembu V et al (2019) Aging behaviours of 8011 al and 8011 al/15% sicp composites. J Miner Mater Characterization Eng 7(05):221
Chandrasekar P, Natarajan S, Ramkumar K (2019) Influence of carbide reinforcements on accumulative roll bonded al 8011 composites. Mater Manuf Processes 34(8):889–897
Cui J, Chen L, Li Y, Liu J, Xie J (2019) Effects of annealing treatment on mechanical properties of 8011 aluminum alloy after cryogenic rolling. Metal Res Technol 116(2):219
Harshavardhan R, Anil K, Rao KS (2018) Evaluation of fracture toughness ofred mud reinforced aluminium matrix composite. Mater Today: Proc 5(11):24854–24861
Rao KS, Anil K, Girisha K et al (2017) Effect of particle size on mechanical properties of al-rmp metal matrix composites. Mater Today: Proc 4(10):11154–11157
Anil K, Vikas M, Shanmukha Teja B, Sreenivas Rao K (2017) Effect of cutting parameters on surface finish and machinability of graphite reinforced al-8011 matrix composite. In: IOP conference series: materials science and engineering, vol 191, p 012025
Kandan R, Kumar D, Sudharssanam M, Venkadesan A, Badrinath R (2017) Investigation of mechanical properties on newly formulated hybrid composite aluminium 8011 reinforced with b4c and al2o3 by stir casting method. Int J Sci Res Dev 5:962–965
Karthikkumar C, Baranirajan R, Premnauth I, Manimaran P (2016) Investigations on mechanical properties of al 8011 reinforced with micro b4c/red mud by stir casting method. Int J Eng Res Gen Sci 4:405–412
Vembu V, Ganesan G (2015) Heat treatment optimization for tensile properties of 8011 al/15% sicp metal matrix composite using response surface methodology. Defence Technol 11(4):390–395
Shivanand YADH, Santhosh Kumar S (2015) Investigation on mechanical properties of e-glass and flyash reinforced al 8011 based hybrid composites. Int J Mech Eng Technol 4(6)
Rahimi M, Fojan P, Gurevich L, Afshari A (2015) Aluminium alloy 8011: Surface characteristics. Appl Mech Mater 719:29–37, Trans Tech Publ
Reddy DM, Lakshmi AA, ul Haq A (2019) Experimental taguchi approach andgray–taguchi optimization on mechanical properties of aluminum 8011 alloy sheet under uniaxial tensile loads. Mater Today: Proc 19:366–371
Pazman J, Feher K, Gonda V, Vero B (2020) Effect of the homogenization and cold deformation on the mechanical performance of al8006 aluminium alloy. In: IOP conference series: materials science and engineering, vol 903, p 012039, IOP Publishing
Shuai G, Li Z, Zhang D, Tong Y, Li L (2020) The mechanical property and electrical conductivity evolution of al–fe alloy between room temperature and elevated temperature ecap. Vacuum 183:109813
Abass M, Mahmud F, Alali M, Abood A (2019) The effect of annealing andanisotropic behaviour on tensile and fatigue properties of aa8090. Arch Mater Sci Eng 99(1/2)
Natrayan L, Yogeshwaran S, Yuvaraj L, Kumar MS (2019) Effect of graphenere inforcement on mechanical and microstructure behavior of aa8030/graphene composites fabricated by stir casting technique. In: AIP conference proceedings, vol 2166, p 020012. AIP Publishing LLC
Khodabakhshi F, Gerlich A, Worswick M (2018) Fabrication and characterizationof a high strength ultra-fine grained metal-matrix aa8006-b4c layered nanocomposite by a novel accumulative fold-forging (aff) process. Mater Des 157:211–226
Missori S, Sili A (2002) Mechanical and microstructural properties of 8090 al-li alloy welded joints. Metal Sci Technol 20(2)
Orrhede M, Tolani R, Salama K (1996) Elastic constants and thermal expansionof aluminum-sic metal-matrix composites. Res Nondestr Eval 8(1):23–37
Zhu S, Peng L, Ma Z, Bi J, Wang F, Wang Z (1996) High temperature creepbehavior of sic whisker-reinforced alfevsi composite. Mater Sci Eng A 215(1–2):120–124
Salazar L, Matute K, Sidorovas L Evaluation of the influence of annealing time on the mechanical, electrical and microstructural properties of aluminium alloy aa-8176
Magibalan S, Kumar PS, Balan A, Shivasankaran N, Sankar S, Prabu M, Saravanan S (2020) Wear loss of stir cast aluminium alloy 8011. Mater Today: Proc 21:762–765
Fayomi J, Popoola A (2020) The assessment of the microstructural modification, corrosion response, and tribological behavior of aa8011 reinforced nano-zrb. J Bio- Tribo-Corrosion 6(79):79
Fayomi J, Popoola A, Popoola O, Oladijo O (2020) Effect of silicon nitride (si3n4) addition on the mechanical and tribological performance of Al–Fe–Si alloy (aa8011). Mater Sci Forum, 982, 34–38, Trans Tech Publ
Kalaiyarasan A, Sundaram S (2020) Tribological investigation of 8090 al alloy metalmatrix composite. Tierarztl Prax 40:394–405
Fayomi J, Popoola A, Popoola O, Oladijo O, Fayomi O (2019) Tribological and microstructural investigation of hybrid aa8011/zrb2-si3n4 nanomaterials for service life improvement. Results Phys 14: 102469
Shankar BL, Nagaraj P, Anil K (2017) Optimization of wear behaviour of aa8011gr composite using taguchi technique. Mater Today: Proc 4(10):10739–10745
Mishra R (2020) Study the effect of pre-corrosion on mechanical properties and fatigue life of aluminum alloy 8011. Mater Today: Proc 25:602–609
Fayomi J, Popoola A, Popoola O, Fayomi O, Ajenifuja E (2020) Response evaluation of aa8011 with nano zrb2 inclusion for multifunctional applications: considering its thermal, electrical, and corrosion properties. J Alloys Compounds 157197
Fayomi J, Popoola A, Popoola O, Fayomi O (2020) The appraisal of the thermal properties, electrical response, and corrosion resistance performance of aa8011 reinforced nano si3n4 for automobile application. J Alloys Compounds 850:156679
Karthikeyan A, Jinu G (2019) Investigation on mechanical and corrosion behaviour of aa8011 reinforced with tic and graphite hybrid composites. Mater Res Express 6(10):1065b5
Magibalan S, Senthilkumar P, Senthilkumar C, Prabu M (2019) Tribological behaviour of aluminium alloy 8011. Indian J Eng Mater Sci 26(5):43–50
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Sharma, R., Pradhan, M.K., Jain, P. (2022). A Review on Tribo-Mechanical Behaviour and Corrosion Performance of AA8000 Based Composites. In: Verma, P., Samuel, O.D., Verma, T.N., Dwivedi, G. (eds) Advancement in Materials, Manufacturing and Energy Engineering, Vol. I. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-16-5371-1_40
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DOI: https://doi.org/10.1007/978-981-16-5371-1_40
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