Burr Prevention and Minimization for the Aerospace Industry
Author(s): David A. Dornfeld, Sangkee Min, Jinsoo Kim, John Hewson, Chih-Hsing Chu, Phillip Tyler, Paul Ffield, and Abe Askari
DOI:(https://doi.org/10.4271/1999-01-2292)
Publication: Aerospace Manufacturing Technology Conference & Exposition
Acknowledgment:
Citation: Aerospace Manufacturing Technology Conference & Exposition, Bellevue, Washington, USA, June 5, 1999. (SAE Technical Paper 1999-01-2292, 1999.)
Burr research is undeniably highly complex. In order to advance understanding of the process involved several techniques are being implemented. First a detailed and thorough examination of the burr forming process is undertaken. The technique is difficult, intricate and time consuming, but delivers a large amount of vital physical data. This information is then used in the construction of empirical models and, in some case lead to development of FEM models. Finally 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 being followed at the University of California in collaboration with Boeing and the Consortium on Deburring and Edge Finishing (CODEF). The work detailed in this paper includes drilling burr formation, FEM analysis, process planning and related standards.