References
- Goudar DM, Magalad VT, Kurahatti RV. Study of microstructure and tribological behavior of spray cast high silicon hypereutectic Al-Si alloy. Adv Mater Process Technol. 2020;8(2):1245–1254. DOI:10.1080/237468X.2020.1855402
- V V, Narayan Prabhu K. Review of microstructure evolution in hypereutectic Al–Si alloys and its effect on wear properties. Trans Indian Inst Met. 2014;67(1):1–18.
- Abboud JH, Kayitmazat M. Microstructural evolution and hardness of rapidly solidified hypereutectic Al-Si surface layers by laser remelting. Adv Mater Process Technol. 2022;89(4):4136–4155.
- Hadi Abbouda J, Mazumder J. Ultra-refined primary and eutectic silicon in rapidly solidified laser produced hypereutectic Al–Si alloys. Adv Mater Process Technol. 2022;8(3):2510–2532.
- Elmadagli M, Perry T, Alpas AT. A parametric study of the relationship between microstructure and wear resistance of Al–Si alloys. Wear. 2007;262:79–92. DOI:10.1016/J.WEAR.2006.03.043
- Dong H. Surface engineering of light alloys.aluminium, magnesium and titanium alloys a volume in woodhead publishing series in metals and surface engineering. Elsevier EBook; 2010.
- Guan RG, Tie D. Di Tie.A review on grain refinement of aluminum alloys: progresses. Challenges and Prospects Acta MetallurgicaSinica (English Letters). 2017;30(5):409–432.
- Nogita K, McDonald SD, Dahle AK. Eutectic modification of Al-Si alloys with rare earth metals. Mater Trans. 2004;45(2):323–326.
- Ahmada R, Sheggafa ZM, Asmaelb MBA, et al. Effect of rare earth addition on solidification characteristics and microstructure of ZRE1 magnesium cast alloy. Adv Mater Process Technol. 2017;3(3):418–427.
- Mehrpour O, Jafarzadeh M, Abdollahi M. A systematic review of aluminium phosphide poisoning. archives of industrial hygiene and toxicology. 2012;63(1):61–73. DOI:10.2478/10004-1254-63-2012-2182
- Asensio-LozanoBeatrizsuàrez J. Effect of the addition of refiners and/or modifiers on the microstructure of die cast Al–12Si alloys. Scripta Materialia. 2006;54(5):943–947.
- Zhang H, HailiDuan G, LuopingXu J. Modification mechanism of cerium on the Al-18si alloy. Rare. 2006;25(1):11–15.
- Li Q, Xia T, Lan Y, et al. Effect of rare earth cerium addition on the microstructure and tensile properties of hypereutectic Al–20%Si alloy. Compounds. 2013;15:25–32.
- Kores S, Vonina M, Kosec B, et al. Effect of cerium additions on the alsi17 casting alloy. MTAEC9. 2010;44(3): 137. UDK 669.131:669.85/.86.
- Gröbner J, Mirković D, Schmid-Fetzer R. Metallurgical and materials transactions. Metall Mater Trans A. 2004;35(11):3349. A, 35A. DOI:10.1007/s11661-004-0172-y.
- Mehdi H, Malakhov DV, Physical metallurgy and thermodynamics of aluminum alloys containing cerium and lanthanum July 2009 http://hdl.handle.net/11375/17315
- Xiao-Hui A, Shu-MingXing BSY, Han QY. Effect of Ce addition on microstructures and mechanical properties of A380 aluminum alloy prepared by squeeze- casting. Int J Miner Metall. 2018;25(5):553–564.
- Williams S, Ebhota, Jen TC. Intermetallics formation and their effect on mechanical properties of Al-Si-X Alloys. ISBN 978-1- 78923-179-3 Print ISBN 978-1-78923-178-6,eBook (PDF) ISBN978-1-83881-298-0, 10.5772/intechopen.73188. DOI: 10.5772/intechopen.68256
- Zheng Y, Xiao W, Sujing G, et al. Effects of Cu content and Cu/Mg ratio on the microstructure and mechanical properties of Al– Si–Cu–Mg alloys. CompoundsVolume. 2015 November 15;649:291–296. DOI:10.1016/j.jallcom.2015.07.090.
- Ceschini L. Stefania toschi ,friction and wear of aluminum alloys and composites. 2017. DOI:10.31399/asm.hb.v18.a0006388
- Dasgupta R, Bose SK. Effect of copper on the tribological properties of Al-Si alloys. J Mat Letters. 1995;14(23):1661–1663.
- ShivaprasadChannappagoudar KA, Vijay Desai N. Pudukottah Gopalienga rMukunda. The Influence of the Addition of 4.5 wt.% of Copper on Wear Properties of Al-12si Eutectic Alloy. Jord J Mech Indus Eng. 2015;9(3):217–222.
- Basava Kumar KG, MukundaPudukottah PGM, Chakraborty M. Dry sliding wear behavior of Al–12Si and Al–12Si–3Cu cast alloys. Mat & Design. 2009;30(4):1258–1267.
- Sjölander E. Salem Seifeddine.The heat treatment of Al–Si–Cu–Mg casting alloys. J Mater Process Technol. 2010;210(10):1249–1259.
- Arne Wahlen HL, Uggowitzer PJ, Lüchinger H. On the silicon spheroidization in Al–Si alloys. J Light Met. 2002;2(4):263–269.
- BiplabHazra S, Kumar Show B, Show BK. High temperature wear micro mechanisms in Al–17Si–5Cu alloy after an isothermal heat treatment. Mat Corros and Degrad. 2021;60(3):224–238.
- Ahmad R, Asmael MBA. Influence of Cerium on Microstructure and Solidification of Eutectic Al-Si Piston Alloy. Mater Manuf Processes. DOI:10.1080/10426914.2015.1127942
- Vončina M, Medved J, Bončina T. Effect of Ce on morphology of α(Al)–Al2Cu eutectic in Al–Si–Cu alloy. Trans Nonferrous Met Soc China. 2014;24(1):36–41.
- Miyoshi H, Kimizuka H, Ishii A, et al. Competing nucleation of single- and double-layer Guinier–Preston zones in Al–Cu alloys. Sci Rep. 2021;11(1):4503. DOI:10.1038/s41598-021-83920-8
- . Mohamed AMA, Samuel FH. Review on the Heat Treatment of Al-Si-Cu/Mg Casting Alloys. DOI:10.5772/79832
- Muddle BC, Polmear IJ. The precipitate Ω phase in Al-Cu-Mg-Ag alloys. Acta Metallurgica Material. 1989;37(3):777.
- L XC, F YY, Wang HY, et al. Effects of modification and heat-treatment on the abrasive wear behavior of hypereutectic Al–Si alloys. J Mater Sci. 2008;42(15):6331–6338. DOI:10.1007/s10853-006-1189-y
- Huq, Celis M., Jean-Pierre. Expressing Wear Rate in Sliding Contacts Based on Dissipated Energy. 2002;252(5-6):375–383.
- Prados EF, Sordi VL, Ferrante M. The effect of Al2Cu precipitates on the microstructural evolution, tensile strength, ductility and work-hardening behaviour of a Al–4wt.% Cu alloy processed by equal-channel angular pressing. Acta Materialia. 2013;61(1):115–125.
- Anasyida AS, Daud AR, Ghazali MJ. Dry sliding wear behaviour of Al–12Si–4Mg alloy with cerium addition. Design. 2010;31(1):365–374.
- Prasad BK, Dan TK. Influence of solutionzing temperature and duration on the microstructure and properties of a hypereutectic aluminum-silicon alloy-graphite composite. J Mater Sci Lett. 1991;10(23):1412–1414.
- Hülyakaçar E, Atik, CevdetMeriç E, et al. The effect of precipitation-hardening conditions on wear behaviors at 2024 aluminum wrought alloy.J Materal.Process. Tchnol. 2003;142(3):762–766.