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Topological Optimization of Under-Platform Dampers with Moving Morphable Components and Global Optimization Algorithm for Nonlinear Frequency Response

Abstract : To limit the risk of High Cycle Fatigue, underplatform dampers are traditionally used in aircraft engines to control the level of vibration. Many studies demonstrate the impact of the geometry of the damper on its efficiency, thus the consideration of topological optimization to find the best layout of the damper seems natural. Because of the nonlinear behaviour of the structure due to the friction contact interface, classical methods of topological optimization are not usable. The present study proposes to optimize the layout of an underplatform damper to reduce the level of nonlinear vibrations computed with the Multi-Harmonic Balance Method. The approach of topological optimization employed is based on the Moving Morphable Components framework together with the Kriging and the Efficient Global Optimization algorithm to solve the optimization problem. The results show that the level of vibration of the structure can be reduced of 30% and allow for the identification of different efficient geometries.
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https://hal.inria.fr/hal-03106794
Contributor : Enora Denimal <>
Submitted on : Friday, February 26, 2021 - 9:39:34 AM
Last modification on : Wednesday, March 17, 2021 - 10:49:16 AM

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Enora Denimal, Fadi El Haddad, Chian Wong, Loic Salles. Topological Optimization of Under-Platform Dampers with Moving Morphable Components and Global Optimization Algorithm for Nonlinear Frequency Response. Journal of Engineering for Gas Turbines and Power, American Society of Mechanical Engineers, 2021, 143 (2), pp.1-9. ⟨10.1115/1.4049666⟩. ⟨hal-03106794v3⟩

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