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Machining Science and Technology
An International Journal
Volume 1, 1997 - Issue 2
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Original Articles

ANALYTICAL MODELING OF FORCE SYSTEM IN BALL-END MILLING

I. Lazoglu The George W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, Georgia, 30332-0405
&
S. Y. Liang The George W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, Georgia, 30332-0405
Pages 219-234 | Received 29 Oct 1996, Accepted 08 Jun 1997, Published online: 27 Apr 2007

Citations (25)

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Read on this site (3)

C. W. Yao & Y. X. Chien. (2014) A Study of the Contact Interface of a T-slot Milling Cutter Using an Ultrasonic Method. Machining Science and Technology 18:3, pages 348-366.
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Jaspreet Dhupia & Irving Girsang. (2012) CORRELATION-BASED ESTIMATION OF CUTTING FORCE COEFFICIENTS FOR BALL-END MILLING. Machining Science and Technology 16:2, pages 287-303.
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B. U. Guzel & I. Lazoglu. (2004) An Enhanced Force Model for Sculptured Surface Machining. Machining Science and Technology 8:3, pages 431-448.
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Articles from other publishers (22)

Ines Wilck, Andreas Wirtz, Torben Merhofe, Dirk Biermann & Petra Wiederkehr. (2021) Minimisation of Pose-Dependent Regenerative Vibrations for 5-Axis Milling Operations. Journal of Manufacturing and Materials Processing 5:3, pages 99.
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Andreas Wirtz, Ines Wilck, Nils Schmidt, Dirk Biermann & Petra Wiederkehr. (2021) Experimental analysis of tilt angle-dependent dynamic properties of a 5-axis milling center. Manufacturing Letters 29, pages 47-51.
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Yifeng Xiong, Wenhu Wang, Ruisong Jiang, Kunyang Lin & Mingwei Shao. (2018) Mechanisms and FEM Simulation of Chip Formation in Orthogonal Cutting In-Situ TiB2/7050Al MMC. Materials 11:4, pages 606.
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Lihui Wang & Xi Vincent WangLihui Wang & Xi Vincent Wang. 2018. Cloud-Based Cyber-Physical Systems in Manufacturing. Cloud-Based Cyber-Physical Systems in Manufacturing 347 375 .
Xiaoxiao Chen, Jun Zhao, Shuai Liu, Yongwang Dong & Fuzeng Wang. (2013) Investigation on the chip formation concerning tool inclination angles in ball end milling of H13 die steel. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 228:3, pages 337-355.
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Paul Cheţan, Vasile Boloş, Alexandru Pozdîrcă & Andrea Peterlicean. (2014) Influence of Radial Finishing Trajectories to the Roughness Obtained by Milling of Spherical Surfaces. Procedia Technology 12, pages 420-426.
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Mustafa Kurt & Eyup Bagci. (2011) Feedrate optimisation/scheduling on sculptured surface machining: a comprehensive review, applications and future directions. The International Journal of Advanced Manufacturing Technology 55:9-12, pages 1037-1067.
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S. Doruk Merdol & Yusuf Altintas. (2008) Virtual cutting and optimization of three-axis milling processes. International Journal of Machine Tools and Manufacture 48:10, pages 1063-1071.
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Tamás Insperger, Janez Gradišek, Martin Kalveram, Gábor Stépán, Klaus Winert & Edvard Govekar. (2006) Machine Tool Chatter and Surface Location Error in Milling Processes. Journal of Manufacturing Science and Engineering 128:4, pages 913-920.
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Li Ning & Stephen C. Veldhuis. (2006) Mechanistic Modeling of Ball End Milling Including Tool Wear. Journal of Manufacturing Processes 8:1, pages 21-28.
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Jeong Hoon Ko & Dong-Woo Cho. (2004) Determination of Cutting-Condition-Independent Coefficients and Runout Parameters in Ball-End Milling. The International Journal of Advanced Manufacturing Technology 26:11-12, pages 1211-1221.
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Jeong Hoon Ko & Dong-Woo Cho. (2005) 3D Ball-End Milling Force Model Using Instantaneous Cutting Force Coefficients. Journal of Manufacturing Science and Engineering 127:1, pages 1-12.
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Ismail Lazoglu. (2003) Sculpture surface machining: a generalized model of ball-end milling force system. International Journal of Machine Tools and Manufacture 43:5, pages 453-462.
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J.-J. Junz Wang & C. M. Zheng. (2003) Online Identification of Shearing and Plowing Constants in End Milling. Journal of Manufacturing Science and Engineering 125:1, pages 57-64.
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C M Zheng & J -J Junz Wang. (2005) Estimation of in-process cutting constants in ball-end milling. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 217:1, pages 45-56.
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J.-J.J. Wang & C.M. Zheng. (2002) Identification of shearing and ploughing cutting constants from average forces in ball-end milling. International Journal of Machine Tools and Manufacture 42:6, pages 695-705.
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S Engin & Y Altintas. (2001) Mechanics and dynamics of general milling cutters.. International Journal of Machine Tools and Manufacture 41:15, pages 2195-2212.
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Rixin Zhu, Shiv G. Kapoor & Richard E. DeVor. (2001) Mechanistic Modeling of the Ball End Milling Process for Multi-Axis Machining of Free-Form Surfaces. Journal of Manufacturing Science and Engineering 123:3, pages 369-379.
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Yoong-Ho Jung, Jeong-Suk Kim & Sang-Moon Hwang. (2001) Chip load prediction in ball-end milling. Journal of Materials Processing Technology 111:1-3, pages 250-255.
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Ismail Lazoglu & Steven Y. Liang. (2000) Modeling of Ball-End Milling Forces With Cutter Axis Inclination. Journal of Manufacturing Science and Engineering 122:1, pages 3-11.
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Y. Altıntas¸, E. Shamoto, P. Lee & E. Budak. (1999) Analytical Prediction of Stability Lobes in Ball End Milling. Journal of Manufacturing Science and Engineering 121:4, pages 586-592.
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K. F. Ehmann, S. G. Kapoor, R. E. DeVor & I. Lazoglu. (1997) Machining Process Modeling: A Review. Journal of Manufacturing Science and Engineering 119:4B, pages 655-663.
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