Milling Force Analysis of SiCp/Al Complex Thin-Walled Parts Based on Finite Element Method

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ISSN: 2278-0149 (Online)
Abbreviated Title: Int. J. Mech. Eng. Robot. Res.
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DOI: 10.18178/ijmerr
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Professor of School of Engineering, Design and Built Environment, Western Sydney University, Australia. His research interests cover Industry 4.0, Additive Manufacturing, Advanced Engineering Materials and Structures (Metals and Composites), Multi-scale Modelling of Materials and Structures, Metal Forming and Metal Surface Treatment.

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Home > Published Issues > 2020 > Volume 9, No. 5, May 2020 >

Kai Xu 1, Niansong Zhang 1, and Aimin Wang 2

1. College of Mechanical Engineering, Nanjing University of Science and Technology, Nanjing, China
2. College of Mechanical Engineering, Beijing Institute of Technology, Beijing, China

Abstract—The difficulty of machining deformation control of a SiCp/Al complex thin-walled part is described. The theoretical analysis and simulation pretreatment modeling of SiCp/Al composite hard and brittle materials were carried out. A constitutive model of SiCp/Al composite hard and brittle materials was established. The milling force in the actual machining process was simulated by the finite element method, and the influence of each machining parameter on the milling force of thin-walled parts was analyzed. Set up multiple sets of control experiments to get the best processing parameters.

Index Terms—Si Cp/Al, thin-walled parts, finite element simulation, deformation control

Cite: Kai Xu, Niansong Zhang, and Aimin Wang, "Milling Force Analysis of SiCp/Al Complex Thin-Walled Parts Based on Finite Element Method," International Journal of Mechanical Engineering and Robotics Research, Vol. 9, No. 5, pp. 685-690, May 2020. DOI: 10.18178/ijmerr.9.5.685-690

Copyright © 2020 by the authors. This is an open access article distributed under the Creative Commons Attribution License (CC BY-NC-ND 4.0), which permits use, distribution and reproduction in any medium, provided that the article is properly cited, the use is non-commercial and no modifications or adaptations are made.