Trends in Mechanical Engineering & Technology

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Manufacturing in today’s era is a critical and essential part of society, which always gets better day by day. The optimization of manufacturing process helps in increasing the productivity and economy for both company and customer, which leads to efficient manufacturing. The boring process is used for enlarging the bore of cylinder liner. It is essential process which is considered for dimensional accuracy. The optimization of boring process can lead to increase in productivity. The study investigates optimization of boring process by optimizing its process parameters for improving productivity of GG25 cylinder liner using alternate tooling head.

Boring machine; boring head; design of experiment

Lingling Li, Congbo Li, Ying Tang, Li Li, “An integrated approach of process planning and cutting parameter optimization for Energy-aware CNC Machining”, Journal of Cleaner Production, June 2017.

S. Koleva, M. Enchev, T. Szecsi, “Analysis of the Mechanical Deformations of Boring Tools”, Elsevier, Procedia Engineering 132 (2015) 529 – 536.

R.S. Kadu, G.K. Awari, C.N. Sakhale, J.P. Modak, “Formulation of Mathematical Model for the Investigation of tool wears in Boring Machining Operation on Cast Iron using Carbide and CBN tools”, Elsevier, Procedia Materials Science 6 ( 2014 ) 1710 – 1724.

M. Kaymakci, Z.M.Kilic, Y.Altintas, “Unified cutting force model for turning, boring, drilling and milling operations”, Elsevier, International Journal of Machine Tools & Manufacture 54–55 (2012) 34–45.

Neelesh K. Jain, V.K. Jain, Kalyanmoy Deb, “Optimization of process parameters of mechanical type advanced machining processes using genetic algorithms”, Elsevier, International Journal of Machine Tools & Manufacture 47 (2007) 900–919.

F. Atabey, I. Lazoglu, Y. Altintas, “Mechanics of boring processes—Part I”, International Journal of Machine Tools & Manufacture 43 (2003) 463–476.

R.B. Obara, R.M. Souza, E. Tomanik, “Quantification of folded metal in cylinder bores through surface relocation”, Elsevier, Wear 384–385 (2017) 142–150.

Kai Egashira, Mitsuo Iwata, Yosuke Nomura, “Boring and face grooving using micro turning tools”, Elsevier, CIRP Annals - Manufacturing Technology 60 (2011) 81–84.

S. H. YEO, B. K. A. NGOI and H. CHEN, “Process sequence optimization based on a new Cost-tolerance model”, Journal of Intelligent Manufacturing (1998) 9, 29-37.

Mihir Patel, Vivek Deshpande, “Application of Taguchi Approach for Optimization Roughness for Boring operation of E 250 B0 for Standard IS: 2062 on CNC TC”, 2014 IJEDR | Volume 2, Issue 2 | ISSN: 2321-9939.

Mayuresh P Vaishnav ,S A Sonawane, “Analysis and Optimization Of Boring Process Parameters By Using Taguchi Method On SAE 1541”, International Journal of Engineering Science Invention Volume 3 Issue 8, August 2014, PP.59-63.

Gaurav Vohra, Palwinder Singh, Harsimran Singh Sodhi, “Analysis and Optimization of Boring Process Parameters by Using Taguchi Method,” International Journal of Computer Science and Communication Engineering, IJCSCE Special issue on Recent Advances in Engineering & Technology, NCRAET-2013, and ISSN 2319-7080.

Show-Shyan Lin, Ming-Tsan Chuang, Jeong-Lian Wen, and Yung-Kuang Yang, “Optimization of 6061T6 CNC Boring Process Using the Taguchi Method and Grey Relational Analysis”, The Open Industrial and Manufacturing Engineering Journal, 2009, 2, 14-20 14.

Yoshiyuki Uno, Akira Okada, Yasuhiro Okamoto, Kazuo Yamazaki, Subhash H. Risbud, Yoshiaki Yamada, “High efficiency fine boring of monocrystalline silicon ingot by electrical discharge machining”, Elsevier, Precision Engineering 23 (1999) 126–133.

A.M.Badadhe, S. Y. Bhave, L. G. Navale, “Optimization of Cutting Parameters in Boring Operation” IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE) ISSN (e): 2278-1684, ISSN (p): 2320–334X, PP: 10-15.

Sandvick Turning Manual Section I.