Abstract
The boring process in metal cutting was found to be a very widely used machining process even though chatter caused during machining is significant. In order to suppress tool vibration and to enhance performance indices like surface finish, tool wear, cutting force, etc., a smart damper was considered in this study and analyzed computationally. Accordingly, damping force obtained using magnetorheological foam was analyzed to control vibration. To improve the dynamic stability and boring operation as a whole, a series of finite element studies have been conducted on the boring tool to understand the influence of each damper on the boring operation and found to be effective in obtaining better dynamic stability. From the analysis, it was observed that the tool supported by the damper suppressed vibration effectively when compared to the tool without the damper.
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Acknowledgements
The authors express their sincere thanks to the Department of Mechanical Engineering, Karunya Institute of Technology and Sciences, India, for providing the necessary facilities to carry out this research work.
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Sarath, S., Sam Paul, P., Lawrance, G. (2023). Dynamic Study of Smart Material-Assisted Boring Tool. In: Jain, P.K., Ramkumar, J., Prabhu Raja, V., Kalayarasan, M. (eds) Advances in Simulation, Product Design and Development. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-19-4556-4_17
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DOI: https://doi.org/10.1007/978-981-19-4556-4_17
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