Finite Element Modeling of Burr Formation in Metal Cutting
Author(s): Sangkee Min, David A. Dornfeld, Jinsoo Kim, and Borlin Shyu
DOI:(https://doi.org/10.1081/MST-100108617)
Publication: Int. Journal of Machining Science and Technology
Acknowledgment:
Citation: International Journal of Machining Science and Technology, Vol. 5, No. 3, pp. 307-322, 2001.
In order to advance understanding of the burr formation process, a series of finite element models are introduced. First, a finite element model of the burr formation of two-dimensional orthogonal cutting is introduced and validated with experimental observations. A detailed and thorough examination of the drilling burr forming process is undertaken. This information is then used in the construction of an analytical model and, leads to development of a three-dimensional finite element model of drilling burr formation. Using the model as a template, related burr formation problems that have not been physically examined can be simulated and the results used to control process planning resulting in the reduction of burr formation. We highlight this process by discussing current areas of research at the University of California in collaboration with the Consortium on Deburring and Edge Finishing (CODEF).