Abstract
Most engineering system, machines and products have moving parts and in order to achieve a desired performance, they require the manipulation of their mechanical or dynamic behavior from the early stage of design. Also, the dynamic interaction between the moving object and the structure should be properly considered at this level. The objective of the presented paper is to propose a new methodology for the pre-design of a mechatronic system, considering the vibrational behavior using the object oriented modeling language Modelica with Dymola environment. In fact, we study the dynamic behavior of a supporting flexible beam structure (simply supported at both ends) traversed by moving masses at variable speeds, based on the object-oriented modelling paradigm developed in Modelica. An analytical approach is adopted, providing a compromise between the results accuracy and the computation time. To illustrate the methodology, the bridge crane system is used as a supporting study. This machine is commonly used in industrial facilities. The effects of varying the different parameters on the dynamic response of the system are investigated. This methodology would be useful for a designer to have an overview about the system response and the interaction between the different subcomponents in the conceptual design phase.
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Hamza, G. et al. (2019). Analytical Based Approach for Vibration Analysis in Modelica: Application to the Bridge Crane System. In: Fakhfakh, T., Karra, C., Bouaziz, S., Chaari, F., Haddar, M. (eds) Advances in Acoustics and Vibration II. ICAV 2018. Applied Condition Monitoring, vol 13. Springer, Cham. https://doi.org/10.1007/978-3-319-94616-0_8
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DOI: https://doi.org/10.1007/978-3-319-94616-0_8
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