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Optimization of wire EDM process parameters on Al6061/Al₂O₃ composite and its surface integrity studies

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Metal matrix composites (MMC) are finding application in many fields such as aerospace and automobile industries. This is due to their advantages such as light weight and low cost. Among all the available non-traditional machining processes, wire electric discharge machining (WEDM) is found to be a suitable method for producing complex or intricate shapes in composite materials. In this study, an aluminum metal matrix composite (AMMC) with 6% and 8% weight (wt) fraction of Al2O3 is prepared through the stir casting process. The fabricated AMMC specimen is machined using WEDM, considering various process parameters such as wt % of reinforcement, gap voltage (Vg), peak current (IP) wire tension (WT) and dielectric pressure (Pd). Output responses such as the machining rate (MR) and surface roughness (Ra) of the slots are analyzed by conducting L18 mixed orthogonal array (OA) experiments. The experiments are analyzed using techniques for order preference by similarity to ideal solution (TOPSIS) and analysis of variance (ANOVA). Based on the analyses, the optimum combination of process parameters for better MR and Ra is as follows: wt % =  6 gm, Vg = 53 V, Ip = 8 A, WT = 11 g, Pd = 13 bar. The optimum level of process parameters for MR and Ra are 1.5 mm/min and 3.648 µm, respectively. Based on ANOVA, the peak current is found to have a significant influence on MR and Ra. Moreover, based on a scanning electron microscope (SEM) image, the presence of micro-ridges, reinforcement, micro-craters, micro-cracks, recast layers and oxide formation are all analyzed on the surface being machined.
Rocznik
Strony
1403--1412
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
autor
  • Mahendra Engineering College (Autonomous), Mallasamudram-637503, Tamil Nadu, India
  • Muthayammal Engineering College (Autonomous), Rasipuram-637408, Tamil Nadu, India
Bibliografia
  • [1] J. Hemanth, “Quartz (SiO2P) reinforced chilled metal matrix composite (CMMC) for automobile applications”, Mater. Des. 30(2), 323–329 (2009).
  • [2] Y.C. Feng, L. Geng, P.Q. Zheng, Z.Z. Zheng, and G.S.Wang, “Fabrication and characteristic of Al-based hybrid composite reinforced with tungsten oxide particle and aluminium borate whisker by squeeze casting”, Mater. Des 29(10), 2023‒2026 (2008).
  • [3] C.S. Ramesh, R. Keshavamurthy, B.H. Channabasappa, and Abrar Ahmed, “Microstructure and mechanical properties of Ni–P coated Si3N4 reinforced Al6061 composites”, Mat. Sci. Eng. A Struct. 502(1‒2), 99‒106 (2009).
  • [4] M. Kulczyk, J. Skiba, W. Pachla, J. Smalc-Koziorowska, S. Przybysz, and M. Przybysz. “The effect of high-pressure plastic forming on the structure and strength of AA5083 and AA5754 alloys intended for fasteners”, Bull. Pol. Ac.: Tech. 68(4), 903‒911 (2020).
  • [5] R. Raja, S. Jannet, and M.A. Thampy, “Synthesis and characterization of AA5083 and AA2024 reinforced with SiO 2 particles,” Bull. Pol. Ac.: Tech. 66(2), 127‒132 (2018).
  • [6] S. Suresh Kumar et al., “Parametric optimization of wire electric discharge machining on aluminium based composite through grey relational analysis”, J. Manuf. Process. 20(1), 33‒39 (2015).
  • [7] G. Nilesh, P.K. Patil, D.G. Brahmankar, and D.G. Thakur, “On the effects of wire electrode and ceramic volume fraction in wire electrical discharge machining of ceramic particulate re-inforced aluminium matrix composites”, Procedia of the 18th CIRP Conference on Electro Physical and Chemical Machining 42, 286‒291 (2016).
  • [8] D. Satishkumar et al., “Investigation of wire electrical discharge machining characteristics of Al6063/SiCp composites”, Int. J. Adv. Manuf. Tech. 56, 975–986 (2011). Bull. Pol. Ac.: Tech. 68(6) 2020
  • [9] A. Dey, V.R. Reddy Bandi, and K.M. Pandey, “Wire electrical discharge machining characteristics of AA6061/cenosphere aluminium matrix composites using RSM”, Mater. Today Proceedings 5(1), 1278–1285 (2018).
  • [10] S. Lal, S. Kumar, Z.A. Khan, A.N. Siddiquee, “Multi-response optimization of wire electrical discharge machining process parameters for Al7075/Al2O3/SiC hybrid composite using Taguchi-based grey relational analysis”, Proc. Inst Mech. Eng. B J. Eng. Manuf. 229(2), 229–237 (2015).
  • [11] G.R. Jahanshahloo, F. Hosseinzadeh Lotfi, and M. Izadikhah, “An algorithmic method to extend TOPSIS for decision-making problems with interval data”, Appl. Math. Comput. 175(2), 1375‒1384 (2006).
  • [12] R. Kumar Bhuyan, B.C. Routara, and A. Kumar Parida, “An approach for optimization the process parameter by using TOPSIS Method of Al–24%SiC metal matrix composite during EDM”, Mater. Today Proceedings, 2(4‒5), 3116‒3124 (2015).
  • [13] S. Maniraj and R. Thanigaivelan, “Optimization of electrochemical micromachining process parameters for machining of AMCs with different% compositions of GGBS using taguchi and TOPSIS methods”, T. Indian. I. Metals 72, 3057–3066 (2019).
  • [14] D.C. Montgomery, Design and Analysis of Experiments, 4th ed., John Wiley and Sons 1997, New York.
  • [15] R. Thiraviam, V. Ravisankar, P. Kumar, R. Thanigaivelan, R. Arunachalam, “A novel approach for the production and characterisation of aluminium–alumina hybrid metal matrix composites”, Mater. Res. Express 7(4), 046512 (2020).
  • [16] Z.Z. Chen and K. Tokaji, “Effects of Particle Size on Fatigue Crack Initiation and mall Crack Growth in SiC-Particulate Re-inforced Aluminium alloy Composites”, Mater. Lett. 58 (17‒18), 2314‒2321 (2004).
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-5246a35f-68d7-4b32-b274-cc48ca115678
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