Trends in Mechanical Engineering & Technology

The most of the industries carried out various machining processes are the heart of any industries. The processes are advanced day by day in order to achieve goal of efficiency. The paper state about one of the process namely end milling on experimentally investigates the effect of input parameters on material removal rate and surface roughness for key way cut on particular back shaft. Design of experiment carried out by taguchi method using Minitab software. Signal to noise ratio is applied to find optimum process parameter for TMC end milling. Experiment is carried out on EN 8 material of back shaft by end mill. The end mill is solid carbide material cutting tool having four flute 8 mm diameter, shank length 30 mm and cutter length 35 mm is used for experiments on a turning milling centre. A L₂₅ orthogonal array and analysis of variance are applied to study the performance characteristic of maching parameters ( Cutting Speed, Feed Rate, and Depth of Cut ) with considering of higher MRR by maintain surface roughness have been identified. Result obtained by taguchi method and signal-to-noise ratio match closely by analysis of variance. Regression equation is formulated for estimating predicated value of MRR and surface roughness.

Vishal Parashar, Rajesh Purohit. Investigation of the Effect of the Machining Parameters on Material Removal Rate Using Taguchi Method in End Milling of Steel Grade EN 19. Elsevier, Mater Today: Proceeding. 2017; 4: 336–341p.

Riddhish Thakore. Optimization of CNC End Milling Process Parameters for Aluminum 6061 Alloy Using Carbide Tool Material by Design of Experiments. International Journal for Innovative Research in Science & Technology (IJIRST). Apr 2017; 3(11): 84–90p.

Sahare Shilpa B, Untavale Sachine P, Chaoudhary Sharad S, et al. Experimental Investigation of End Milling Operation on AL2024. Elsevier, Mater Today: Proceeding. 2017; 4: 1357–1365p.

Vishnuvardhan M, Sankarahaiah G, Yohan M, et al. Optimization of Parameters in CNC Milling of P20 Steel Using RSM & Taguchi Method. Elsevier, Mater Today: Proceeding. 2017; 4: 9163–9169p.

Mozammel Mia. Multi-Response Optimization of End Milling Parameters Under Through-Tool Cryogenic Cooling Condition. Elsevier, Measurement. 2017; 111: 134–145p.

Wojciechowski S, Maruda RW, Barrans S, et al. Optimization of Machining Parameters during Ball End Milling of Hardened Steel with Various Surface Inclinations. Elsevier, Measurement. 2017; 111: 18–28p.

Nik Masmiati, Sarhan Ahmedd AD, Mohsen Abdel Naeim Hassan, et al. Optimization of Cutting Condition for Minimum Residual Stress, Cutting Force and Surface Roughness in End Milling of S50C Medium Carbon Steel. Elsevier, Measurement. 2016; 86: 253–265p.

Prajwal Patil, Ashfaq Hussains Md. Optimization of Process Parameters of CNC End Milling Using Grey Based Taguchi Method. IARJSET. 2017; 4(8): 84–95p.

Vyboishchik AV. The Influence of Dynamical Parameters on Surface Quality during Ball End Milling. Elsevier, Procedia Eng. 2017; 206: 1029–1033p.

Danielle Martins Duarte Costa, Tarcísio Gonçalves Brito, Anderson Paulo de Paiva, et al. A Normal Boundary Intersection with Multivariate Mean Square Error Approach for Dry End Milling Process Optimization of the AISI 1045 Steel. Elsevier, J Clean Prod. 2016; xxx: 1–15p.

Durkbasa Numan M, Anil Akdogan, Ali Serdar Vanli, et al. Optimization of End Milling Parameters and Determination of the Effect of Edge Profile for High Surface Quality of AISI H 13 Steel by Using Precise and Fast Measurement. Elsevier, Measurement. 2016; 86: 253–265p.

Harish Holkar, Mudigonda Sadaiah. Optimization of End Milling Machining Parameters of AISI 321 Stainless Steel using Taguchi Method. International Journal on Recent and Innovation Trends in Computing and Communication (IJRITCC). 2016; 4(4): 20–23p.

Hayajneh Mohammed T, Tahat Montasser S, Joachim Bluhm. A Study of the Effects of Machining Parameters on the Surface Roughness in the End-Milling Process. Jordan J Mech Ind Eng. Sep 2007; 1(1): 1–5p.

Hua Zhang, Zhaohui Deng, Yahui Fu, et al. Optimization of Process Parameters for Minimum Energy Consumption Based on Cutting Specific Energy Consumption. J Clean Prod. 2017; 166: 1407–1414p.

Tomas Vopat, Jozef Peterka, Vladimir Simna, et al. The Influence of Different Types of Copy Milling on the Surface Roughness and Tool Life of End Mills. Elsevier, Procedia Eng. 2015; 100: 868–876p.

Emel Kuram, Abur Ozcelik, Mahmut Bayramoglu, et al. Optimization of Cutting Fluid and Cutting Parameters during End Milling by Using D-Optimal Design of Experiments. Elsevier, J Clean Prod. 2013; 42: 153–166p.

Lakshmi VVK, Venkata Subbaiah K. Modelling and Optimization of Process Parameters during End Milling of Hardened Steel. International Journal of Engineering Research and Applications (IJERA). 2012; 2(2): 674–679p.