Abstract
Dynamic Substructuring methods play a significant role in the analysis of complex systems and allow to assess the components individually and combine them in a modular fashion. By using compatible interfaces (through the Virtual Point Transformation), FRF-models from tests can be combined with numerically obtained FRF-models. In this paper a demonstrator structure consisting of a base-frame and several add-ons of varying complexity, both active vibration sources and passive components, is used for validation and comparison purposes. Test-based FRF models of the individual components are compared with numerically obtained results, a test-based FRF model of the full system obtained from test-based component models through substructuring is compared with numerically obtained results as well as a validation measurement on the full system. Finally, the system’s response to an active vibration input is predicted using a blocked-force characterization of the source on a test-bench.
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van der Seijs, M.V. et al.: An improved methodology for the virtual point transformation of measured frequency response functions in dynamic substructuring. In: COMPDYN 2013 4th ECCOMAS Thematic Conference
de Klerk, D., et al.: General framework for dynamic substructuring: history, review, and classification of techniques. AIAA J. 46(5), 1169–1181 (2008)
van der Seijs, M., et al.: General framework for transfer path analysis: history, theory and classification of techniques. Mech. Syst. Signal Process. 68–69, 217–244 (2016)
Klaassen, S.W.B., et al.: System equivalent model mixing. Mech. Syst. Signal Process. 105, 90–112 (2018)
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Steenhoek, A.M., van der Kooij, M.W., Verhees, M.L.J., van den Bosch, D.D., Harvie, J.M. (2020). Test-Based Modeling, Source Characterization and Dynamic Substructuring Techniques Applied on a Modular Industrial Demonstrator. In: Linderholt, A., Allen, M., Mayes, R., Rixen, D. (eds) Dynamic Substructures, Volume 4. Conference Proceedings of the Society for Experimental Mechanics Series. Springer, Cham. https://doi.org/10.1007/978-3-030-12184-6_8
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DOI: https://doi.org/10.1007/978-3-030-12184-6_8
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Publisher Name: Springer, Cham
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Online ISBN: 978-3-030-12184-6
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