Use of inverse stability solutions for identification of uncertainties in the dynamics of machining processes

Date

2018-09-01

Author

Tunc, Lutfi Taner
Özşahin, Orkun

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Research on dynamics and stability of machining operations has attracted considerable attention. Currently, most studies focus on the forward solution of dynamics and stability in which material properties and the frequency response function at the tool tip are known to predict stable cutting conditions. However, the forward solution may fail to perform accurately in cases wherein the aforementioned information is partially known or varies based on the process conditions, or could involve several uncertainties in the dynamics. Under these circumstances, inverse stability solutions are immensely useful to identify the amount of variation in the effective damping or stiffness acting on the machining system. In this paper, the inverse stability solutions and their use for such purposes are discussed through relevant examples and case studies. Specific areas include identification of process damping at low cutting speeds and variations in spindle dynamics at high rotational speeds.

Subject Keywords

Mechanical Engineering, Industrial and Manufacturing Engineering, Mechanics of Materials, Polymers and Plastics

URI

https://hdl.handle.net/11511/38120

Journal

ADVANCES IN MANUFACTURING

DOI

https://doi.org/10.1007/s40436-018-0233-x

Collections

Department of Mechanical Engineering, Article

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Citation Formats

L. T. Tunc and O. Özşahin, “Use of inverse stability solutions for identification of uncertainties in the dynamics of machining processes,” ADVANCES IN MANUFACTURING, pp. 308–318, 2018, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/38120.