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Stability of Precision Diamond Turning Processes That Use Round Nosed Tools

Published

Author(s)

David E. Gilsinn, Matthew A. Davies, B Balachandran

Abstract

A system of retarded differential equations model is developed for a diamond-turning process with chip area cut by a round nosed tool. The results are presented in the form of stability charts that are found to be perturbed forms of those obtained for orthogonal cutting tools.
Citation
Journal of Manufacturing Science and Engineering-Transactions of the ASME

Keywords

boring bar, chip area model, diamond turning, regenerative chatter, round nosed tool, stability charts, time delay equation, vibration

Citation

Gilsinn, D. , Davies, M. and Balachandran, B. (2021), Stability of Precision Diamond Turning Processes That Use Round Nosed Tools, Journal of Manufacturing Science and Engineering-Transactions of the ASME (Accessed December 7, 2024)

Issues

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Created October 12, 2021