Parametric analysis of electrical discharge machining on AA6061 with a WC

Abstract

The AA6061 aluminium alloy surface characteristics presented in this study were obtained after it was machined using die sinking electro discharge machining (EDM) with a composite electrode developed through powder metallurgy. Machining was performed using negative polarity. In order to obtain optimum material removal rate (MRR) and surface roughness (SR), the research has been carried out, and EDM parameters like voltage, current and pulse on time were optimized using the response surface methodology that integrates the central composite design. The parameter interaction effects on EDM machined surface characteristics were studied with the aid of ANOVA. It was determined from model that the regression for MRR and SR were 98.6% and 98.3% respectively, means empirical model is considered sufficient. It was observed that increased MRR and SR were observed in the condition of increased current, but MRR and SR decreased at increased voltage and pulse on time. This could be due to strengthened ionization temperature that increased MRR with acceptable SR. The microstructure of the machine was assessed using microscopic evaluation. The increased current contributed to the formation of a recast layer and debris which hinders the machining process and reduces MRR. The experimental results show that the maximum MRR of 0.087 mg/min and minimum SR of 1.893 µm were achieved. Additionally, the use of WC–Cu composite electrodes led to an increase in hardness from 65 HV to 78 HV in the machined region. It is concluded that WC–Cu composite electrodes typically result in higher hardness, improved MRR and better SR for the AA6061 alloy compared to conventional Cu electrodes.

Keywords

EDM AA6061 RSM MRR SR recast layer

Get full access to this article

View all access options for this article.

References

Prakash

Kumar

Singh

, et al. Micro-electrical discharge machining of difficult-to-machine materials: a review. Proc Inst Mech Eng Part B: Journal Eng Manu 2019; 233: 339–370.

Bhupinder Singh

JPM

. Surface finish analysis of wire electric discharge machined specimens by RSM and ANN modeling. Measurement (Mahwah N J) 2019; 137: 225–237.

Singh

Verma

. Study of electro discharge machining of non-conductive ceramic on alumina & glass. Book Rix, 2018.

Majumder

Das

Majumder

, et al. An approach to optimize the EDM process parameters using desirability-based multi-objective PSO. Prod Manuf Res 2014; 2: 228–240.

Ming

Zhang

, et al. Progress in modeling of electrical discharge machining process. Inter Journal Heat Mass Transfer 2022; 187: 122563.

Gupta

Kumar

. Optimization of EDM process parameters: a review of technique, process, and outcome. In: Singari

Mathiyazhagan

Kumar

(eds) Advances in manufacturing and industrial engineering (ICAPIE 2019): Lecture notes in mechanical engineering. Vol. 1. Singapore: Springer, 2021, pp.981–996.

Singh

Pramanik

Basak

, et al. Developments of non-conventional drilling methods—a review. Inter Journal Adv Manu Tech 2020; 106: 2133–2166.

Singh

Trehan

. Machine learning algorithms based advanced optimization of EDM parameters: an experimental investigation into shape memory alloys. Sen Inter 2022: 3:100179.

Nagarajan

Solaiyappan

Mahalingam

, et al. Meta-heuristic technique-based parametric optimization for electrochemical machining of Monel 400 alloys to investigate the material removal rate and the sludge. Appl Sci 2022; 12: 2793.

10.

Singh

Kumar

Prakash Misra

. Process modelling and optimization using ANN and RSM during WSEM of Ni51.59Ti48.41 shape memory alloy. Proc IMechE Part E: J Process Mechan Eng 2022; 236: 685–698.

11.

Bakkiyaraj

. Finding the optimum concentration of silicon carbide and graphite particles on the tensile strength, hardness and wear properties of aluminium matrix composites by RSM approach. Surf Topogr Metrol Prop 2021; 9: 025018.

12.

Sunny

Korra

Vasudevan

, et al. Parameter optimization and experimental validation of A-TIG welding of super austenitic stainless steel AISI 904L using response surface methodology. Proc IMechE Part E: J Process Mechan Eng 2022; 236(6): 2608–2617.

13.

Solati

Bani Mostafa Arab

Mohammadi-Ahmar

, et al.

Multi-criteria optimization of weld bead in pulsed Nd:YAG laser welding of stainless steel 316.

Proc Inst Mech Eng Part E 2019; 233: 151–164.

14.

Guo

Wang

Zhang

, et al. Multi-response optimization of the electrical discharge machining of insulating zirconia. Mater Manu Proc 2017; 32: 294–301.

15.

Wang

. Effects of bioceramic particles in dielectric of powder-mixed electrical discharge machining on machining and surface characteristics of titanium alloys. J Mater Proc Tech 2017; 245: 70–79.

16.

Muthuramalingam

Mohan

. Influence of discharge current pulse on machinability in electrical discharge machining. Mater Manu Proc 2013; 28: 375–380.

17.

Amorim

Weingaertner

. The behavior of graphite and copper electrodes on the finish die-sinking electrical discharge machining (EDM) of AISI P20 tool steel. J Braz Soc Mech Sci Eng 2017; 29: 366–371.

18.

Yan

Huang

, et al. Improvement of surface finish on SKD steel using electro-discharge machining with aluminum and surfactant added dielectric. Inter Jl Mach Tool Manu 2005; 45(10): 1195–1201.

19.

Tebni

Boujelbene

Bayraktar

. Parametric approach model for determining electrical discharge machining (EDM) conditions: effect of cutting parameters on the surface integrity. Adv Mater Res 2010; 83: 725–737.

20.

Alagarsamy

Ravichandran

. Variation of electrode materials and parameters in the EDM of an AA7075-TiO₂ composite. Mater Test 2021; 63: 182–189.

21.

Feng

Bai

, et al. Surface characteristics of Ti–6Al–4 V alloy by EDM with Cu–SiC composite electrode. Appl Surf Sci 2016; 388: 546–550.

22.

Singh

Kumar

. Optimization and surface modification in electrical discharge machining of AA 6061/SiCp composite using cu–W electrode. Proc Inst Mech Eng Part L 2017; 231: 332–348.

23.

Ramesh

Jenarthanan

. Optimizing the powder mixed EDM process of nickel based super alloy. Proc Inst Mech Eng Part E 2021; 235: 1092–1103.

24.

Sapkota

Ghadai

Das

, et al. Parametric optimisation of milling process for the machining of carbon nanotubes-based hybrid aluminium composite. Proc Inst Mech Eng Part E 2023. DOI: https://doi.org/10.1177/09544089231215924.

25.

Rezaei Ashtiani

Hojati

. The influences of spark energy density on the electrical discharge machining (EDM). Adv Mater Proce Tech 2022; 8: 3165–3181.

26.

Singh

Kumar

. Investigation on the material removal mechanism and the thermal aspects in the electrical discharge machining process. Interl J Eng Technol 2012; 2: 1503–1507.

27.

Micallef

Zhuk

Aria

. Recent progress in precision machining and surface finishing of tungsten carbide hard composite coatings. Coatings 2020; 10: 31.

28.

Niamat

Sarfraz

Aziz

, et al. Effect of different dielectrics on material removal rate, electrode wear rate and microstructures in EDM. Proc Cirp 2017; 60: 2–7.

29.

Maher

Sarhan

. Proposing a new performance index to identify the effect of spark energy and pulse frequency simultaneously to achieve high machining performance in WEDM. Intern J Adv Manufact Technol 2017; 91: 433–443.

30.

Pourasl

. Theoretical and experimental investigation of the material removal rate, surface roughness, and tool wear ratio in electrical discharge machining. 2019. http://i-rep.emu.edu.tr:8080/jspui/bitstream/11129/4919/1/Pouraslhamed.pdf

31.

Alduroobi

AAA

Ubaid

Tawfiq

, et al. Wire EDM process optimization for machining AISI 1045 steel by use of Taguchi method, artificial neural network and analysis of variances. Int J Syst Assur Eng Manag 2020; 11: 1338–1314.

32.

Arya

Pandey

. Statistical modelling and process optimization of EDM electrode fabricated using pressure less microwave sintering and rapid tooling route. Proc Inst Mech Eng Part E 2024. DOI: https://doi.org/10.1177/09544089231222682.

33.

Magabe

Sharma

Gupta

, et al. Modeling and optimization of Wire-EDM parameters for machining of Ni_55.8Ti shape memory alloy using hybrid approach of Taguchi and NSGA-II. Int J Adv Manuf Technol 2019; 102: 1703–1717.

34.

Selvakumar

Muralidharan

. Performance analysis of drills with structured surfaces when drilling CFRP/AA7075 stack under MQL condition. J Manu Proc 2023; 89: 194–219.

35.

Zhao

Kunieda

Abe

. EDM Mechanism of single crystal SiC with respect to thermal, mechanical and chemical aspects. J Mater Proc Tech 2016; 236: 138–147.

36.

Gupta

Dubey

. Modeling and optimization of wire –EDM parameters for machining of Ni54.1Ti45.9 shape memory alloy using hybrid approach. Proc Inst Mech Eng Part E 2022; 236: 2176–2186.

37.

Velmurugan

Subramanian

Thirugnanam

, et al. Experimental investigations on machining characteristics of Al 6061 hybrid metal matrix composites processed by electrical discharge machining. Intern J Eng Sci Technol 2011; 3: 87–101.

38.

Lee

. Study of the effect of machining parameters on the machining characteristics in electrical discharge machining of tungsten carbide. J Mater Process Technol 2001; 115: 344–358.

Supplementary Material

Please find the following supplemental material available below.

For Open Access articles published under a Creative Commons License, all supplemental material carries the same license as the article it is associated with.

For non-Open Access articles published, all supplemental material carries a non-exclusive license, and permission requests for re-use of supplemental material or any part of supplemental material shall be sent directly to the copyright owner as specified in the copyright notice associated with the article.

0.00 MB

0.01 MB

Parametric analysis of electrical discharge machining on AA6061 with a WC–Cu composite electrode

Abstract

Keywords

Get full access to this article

References

Supplementary Material