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Parametric Modeling of Gear Cutting Tools Read chapter Read first chapter

2019 | OriginalPaper | Chapter

The Examination of Cutting Force as Function of Depth of Cut in Cases with Constant and Changing Chip Cross Section

Authors : János Kundrák, Angelos P. Markopoulos, Nikolaos E. Karkalos, Tamás Makkai

Published in: Advances in Manufacturing II

Publisher: Springer International Publishing

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Abstract

For the achievement of highly productive and efficient manufacturing of flat surfaces, face milling is often the best choice in industrial practice. Process conditions should be selected with care in order to be able to reduce the machining time without increasing cutting forces excessively. For that reason, it is necessary to investigate the relationship between process parameters and cutting forces in various face milling cases. In the present study, various face milling experiments on steel workpieces are conducted in order to investigate the effect of depth of cut in cases with both constant and changing chip cross section values, with a view to determine its importance in face milling.

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previous chapter Analysis of Material Removal Efficiency in Face Milling of Aluminum Alloy
next chapter Methodology of Determination of Key Casting Process Parameters on DISA MATCH Automatic Moulding Line Affecting the Formation of Alloy-Mould Contact Defects
Literature
1.
Muñoz-Escalona, P., Maropoulos, P.G.: A geometrical model for surface roughness prediction when face milling Al 7075-T7351 with square insert tools. J. Manuf. Syst. 36, 216–223 (2015)CrossRef
2.
Habrat, W., Motyka, M., Topolski, K., Sieniawski, J.: Evaluation of the cutting force components and the surface roughness in the milling process of micro- and nanocrystalline titanium. Arch. Metall. Mater. 61(3), 1033–1038 (2016)CrossRef
3.
Korkut, I., Donertas, M.A.: The influence of feed rate and cutting speed on the cutting forces, surface roughness and tool-chip contact length during face milling. Mater. Des. 28, 308–312 (2007)CrossRef
4.
Siller, H., Vila, C., Rodríguez, C., Abellán, J.: Study of face milling of hardened AISI D3 steel with a special design of carbide tools. Int. J. Adv. Manuf. Technol. 40, 12–25 (2009)CrossRef
5.
Li, X.P., Zheng, H.Q., Wong, Y.S., Nee, A.Y.C.: An approach to theoretical modeling and simulation of face milling forces. J. Manuf. Process. 2(4), 225–240 (2000)CrossRef
6.
Nieslony, P., Grzesik, W., Bartoszuk, M., Habrat, W.: Analysis of mechanical characteristics of face milling process of Ti6Al4 V alloy using experimental and simulation data. J. Mach. Eng. 16(3), 58–66 (2016)
7.
Zhang, Q., Zhang, S., Li, J.: Three dimensional finite element simulation of cutting forces and cutting temperature in hard milling of AISI H13 steel. Procedia Manuf. 10, 37–47 (2017)CrossRef
8.
Suresh Kumar Reddy, N., Venkateswara Rao, P.: Selection of optimum tool geometry and cutting conditions using a surface roughness prediction model for end milling. Int. J. Adv. Manuf. Technol. 26(11), 1202–1210 (2005)CrossRef
9.
Aykut, Ş., Gölcü, M., Semiz, S., Ergur, H.S.: Modeling of cutting forces as function of cutting parameters for face milling of stellite 6 using an artificial neural networks. J. Mater. Process. Technol. 190(1–3), 199–203 (2007)CrossRef
10.
Jesuthanam, C.P., Kumanan, S., Asokan, P.: Surface roughness prediction using hybrid neural networks. Mach. Sci. Technol. 11(2), 271–286 (2007)CrossRef
11.
Kaya, E., Akyüz, B.: Effects of cutting parameters on machinability characteristics of Ni-based superalloys: a review. Open Eng. 7, 330–342 (2017)CrossRef
12.
Subramanian, M., Sakthivel, M., Sooryprakash, K., Sudharakan, R.: Optimization of cutting parameters for cutting force in shoulder milling of Al7075-T6 using response surface methodology and genetic algorithm. Procedia Eng. 64, 690–700 (2013)CrossRef
13.
Čekić, A., Begić-Hajdarević, Đ., Kulenović, M.: Effect of the cutting parameters on cutting forces in high speed face milling. Tehnički Vjesn. 20(5), 775–780 (2013)
14.
Xu, C., Dou, J., Yuzhen, C., Huaiyuan, L., Zhicheng, S., Jing, X.: The relationships between cutting parameters, tool wear, cutting force and vibration. Adv. Mech. Eng. 10(1), 1–14 (2018)
15.
Ghoreishi, R., Roohi, A.H., Ghadikolaei, A.D.: Analysis of the influence of cutting parameters on surface roughness and cutting forces in high speed face milling of Al/SiC MMC. Mater. Res. Express 5(8), 086521 (2018)CrossRef
16.
Pathak, B.N., Sahoo, K.L., Mishra, M.: Effect of machining parameters on cutting forces and surface roughness in Al-(1-2) Fe-1V-1Si alloys. Mater. Manuf. Processes 28(4), 463–469 (2013)CrossRef
17.
Subramanian, A.V.M., Nachimuthu, M.D.G., Cinnasamy, V.: Assessment of cutting force and surface roughness in LM6/SiCp using response surface methodology. J. Appl. Res. Technol. 15, 283–296 (2017)CrossRef
18.
Ghani, J.A., Choudhury, I.A., Hasan, H.H.: Application of Taguchi method in the optimization of end milling parameters. J. Mater. Process. Technol. 145, 84–92 (2004)CrossRef
19.
Aykut, Ş., Kentli, A., Gülmez, S., Yazıcıoğlu, O.: Robust multiobjective optimization of cutting parameters in face milling. Acta Polytech. Hung. 9(4), 85–100 (2012)
20.
Kundrák, J., Markopoulos, A.P., Makkai, T., Deszpoth, I., Nagy, A.: Analysis of the effect of feed on chip size ratio and cutting forces in face milling for various cutting speeds. Manuf. Technol. 18(3), 431–438 (2018)
21.
Kundrák, J., Gyáni, K., Felhő, C., Deszpoth, I.: The effect of the shape of chip cross section on cutting force and roughness when increasing feed in face milling. Manuf. Technol. 17(3), 335–342 (2017)
Metadata
Title
The Examination of Cutting Force as Function of Depth of Cut in Cases with Constant and Changing Chip Cross Section
Authors
János Kundrák
Angelos P. Markopoulos
Nikolaos E. Karkalos
Tamás Makkai
Copyright Year
2019
Book
Advances in Manufacturing II

Print ISBN: 978-3-030-16942-8

Electronic ISBN: 978-3-030-16943-5

Copyright Year: 2019

DOI
https://doi.org/10.1007/978-3-030-16943-5_35

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