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Modeling of revolute joints in topology optimization of flexible multibody systems
Publikationstyp
Journal Article
Date Issued
2016-09-09
Sprache
English
Author(s)
Institut
TORE-URI
Volume
12
Issue
1
Article Number
011015
Citation
Journal of Computational and Nonlinear Dynamics 1 (12): 011015 (2017-01-01)
Publisher DOI
Scopus ID
Publisher
ASME
In recent years, topology optimization has been used for optimizing members of flexible multibody systems to enhance their performance. Here, an extension to existing topology optimization schemes for flexible multibody systems is presented in which a more accurate model of revolute joints and bearing domains is included. This extension is of special interest since a connection between flexible members in a multibody system using revolute joints is seen in many applications. Moreover, the modeling accuracy of the bearing area is shown to be influential on the shape of the optimized structure. In this work, the flexible bodies are incorporated in the multibody simulation using the floating frame of reference formulation, and their elastic deformation is approximated using global shape functions calculated in the model order reduction analysis. The modeling of revolute joints using Hertzian contact law is incorporated in this framework by introducing a corrector load in the bearing model. Furthermore, an application example of a flexible multibody system with revolute joints is optimized for minimum value of compliance, and a comparative study of the optimization result is performed with an equivalent system which is modeled with nonlinear finite elements.
Subjects
bearing domain
flexible multibody system
floating frame of reference
revolute joint
topology optimization
DDC Class
600: Technik