Investigation on Influence of Machining Parameters on High-Speed CNC Drilling of Ti-6Al-4V

Authors

  • Roopsandeep Bammidi Research Scholar, Department of Mechanical Engineering, Centurion University of Technology and Management, Parlakhemundi, Odisha, India. https://orcid.org/0000-0002-1844-3980
  • K Siva Prasad Professor, Department of Mechanical Engineering, Anil Neerukonda Institute of Technology and Sciences, Visakhapatnam, Andhra Pradesh, India.
  • P Srinivasa Rao Dean and Professor, Department of Mechanical Engineering, Centurion University of Technology and Management, Parlakhemundi, Odisha, India.

Abstract

This scientific article explains the optimization of drilling parameters of Ti-6Al-4V. The parameters considered are speed, feed, and drill diameter. The experiments are conducted based on the L27 orthogonal array and Material Removal Rate (MRR), Circularity Error (CE) was calculated. The drilling on Ti-6Al-4V is done on the CNC Machine. The analysis of variance (ANOVA) is performed for the prediction of output parameters of the titanium grade 5 alloys. The taguchi technique is employed for the optimization of drilling parameters by checking the optimum parametric condition with confirmation experiment.

How to cite this article: Bammidi R, Prasad KS, Rao PS. Investigation on Influence of Machining Parameters on HighSpeed CNC Drilling of Ti-6Al-4V. J Adv Res Mfg Mater Sci Met Engr 2020; 7(3): 23-28.

References

Patel MDH, Patni VN, Prajapati NK. An Investigation Effect of Machining Parameters on CNC ROUTER. International Journal of Engineering Development and Research 2014; 2(2): 1583-1587

Rao Sathish U, Raj RL. Applying Wear Maps in the Optimisation of machining parameters in drilling of polymer matrix composites–A review. Research Journal of Recent Sciences 2012; 1(5): 75-82.

Solhjoei N, Vafaei A, Khalilzadeh et al. High Speed Milling of Al2O3 Particles Reinforced Aluminum MMC. Research Journal of Applied Sciences, Engineering and Technology 2012; 4(17): 3015-3020

Kauppinen V. High-speed milling–A New Manufacturing Technology. In 4th International DAAAM Conference “Industrial engineering–innovation as competitive edge for SME. 2004; 31-134.

Ghan HR, Ambekar SD. Optimization of cutting parameter for Surface Roughness, Material Removal rate and machining time of Aluminium LM-26 alloy. International Journal of Engineering Science and Innovative Technology 2014; 3(2): 294-298.

Simunovic G, Simunovic K, Saric T. Modelling and simulation of surface roughness in face milling. International Journal of Simulation Modelling 2013; 12(3): 141-153.

Simunovic K, Simunovic G, Saric T. Predicting the Surface Quality of Face Milled Aluminium Alloy Using a Multiple Regression Model and Numerical Optimization. Measurement science review 2013; 13(5): 265-272.

Pramanik A, Zhang LC, Arsecularatne JA. Prediction of cutting forces in machining of metal matrix composites. International Journal of Machine Tools and Manufacture 2006; 46(14): 1795-1803.

Farasati R. Ebrahimzadeh P, Fathi J et al. Optimization of laser micromachining of TI-6Al-4V. International Journal of Lightweight Materials and Manufacturing 2019; 2(4).

Singh N, Bharti PS. A review on micro electric discharge machining of titanium alloys. Materials Today Elsevier publication, 2019.

Rysava Z, Bruschi S, Carmignato S et al. Micro-drilling and threading of the Ti6Al4V titanium alloy produced through Additive Manufacturing. Procedia CIRP, 46, 2016.

Singaravel B, Shekar KC, Reddy GG et al. Experimental investigation of vegetable oil as dielectric fluid in Electric discharge machining of Ti-6Al-4V. Ain shams Engineering Journal 2020; 11(1).

Chatterjee S, Mahapatra SS, Kumar A. Simulation and optimization of machining parameters in drilling of titanium alloys. Simulation Modelling Practice and Theory, 62, 2016.

Karpat Y. Temperature dependent flow softening of titanium alloy Ti6Al4V: An investigation using finite element simulation of machining. Journal of Material Processing Technology 2011; 211(4).

Sahoo P, Pratap T, Patra K. A hybrid modelling approach towards prediction of cutting forces in micro end milling of Ti-6Al-4V titanium alloy. International Journal of Mechanical Sciences 150, 2019.

Mishra SK, Ghosh S, Aravindan S. Performance of laser processed carbide tools for machining of Ti6Al4V alloys: A combined study on experimental and finite element analysis. Precision Engineering, 56, 2019.

Balaji M, Rao KV, Rao NM et al. Optimization of drilling parameters for drilling of TI-6Al-4V based on surfaceroughness, flank wear and drill vibration. Measurement Elsevier publication, 114, 2018.

Yang J, Sun S, Brandt M et al. Experimental investigation and 3D finite element prediction of the heat affectedzone during laser assisted machining of Ti6Al4V alloy. Journal of Materials Processing Technology 2010; 210(15): 2010.

Parida AS. Simulation and experimental investigation of drilling of Ti-6Al-4V alloy. International Journal of Lightweight Materials and Manufacturing 2018; 1(3).

Nam J, Kim JW, Kim JS et al. Parametric analysis and optimization of nanofluid minimum quantity lubrication micro-drilling process for titanium alloy (Ti-6Al-4V) using response surface methodology and desirability function. Procedia Manufacturing, 26, 2018.

Mustafa AY. Modelling of the hole quality characteristics by Extreme Learning Machine in fibre laser drilling of Ti-6Al-4V. Journal of Manufacturing processes 2018; 36.

Joy N, Prakash S, Krishnamoorthy A et al. Experimental investigation and analysis of drilling in Grade 5 Titanium alloy (Ti-6Al-4V). Materials today Elsevier publication 2020; 21(1).

Yang H, Ding W, Chen Y et al. Drilling force model for forced low frequency vibration assisted drilling of TI–6Al–4V titanium alloy. International Journal of Machine Tools and Manufacturing 2019; 146.

Mukherjee R, Chakraborty S. Selection of wire electrical discharge machining process parameters using nontraditional optimization algorithms. Applied Soft Computing 2012; 12(8).

Bammidi R, Prasad KS, Rao PS. Studies on Features, Physical, Mechanical, Tribological Properties and, Applications of Ti-6Al-4V in Aerospace Industry. International Journal of Scientific Reports 2019; 5(7).

Bammidi R, Prasad KS, Rao PS. A Review on Recent Trends and Challenges in Micromachining and Machinability of Ti-6Al-4V. Trends in Mechanical Engineering and Technology 2019; 9(1).

Gangadhar G, Venkateshwarlu S, Rajesh S. Experimental Approach of CNC Drilling Operation for Mild Steel Using Taguchi Design. International Journal of Modern Engineering Research 2014; 4(10).

Bammidi R, Prasad KS, Rao PS. Examining Study of Drilling Process on Ti-6Al-4V using different coolants. Accepted in Journal of Engineering & Processesing Management 2020.

Published

2020-09-12

Issue

Vol. 7 No. 3 (2020): Journal of Advanced Research in Manufacturing, Material Science & Metallurgical Engineering

Section

Research Article