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Equivalent micropolar beam model for spatial vibration analysis of planar repetitive truss structure with flexible joints

•An equivalent micropolar beam model is obtained for the spatial vibration analysis of the planar truss with 3D flexible joints.•A high-precision deformation pattern is presented for the planar repeating element based on the micropolar continuum theory and considering the effect of warping torsion.•...

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Bibliographic Details
Published in:International journal of mechanical sciences 2020-01, Vol.165, p.105202, Article 105202
Main Authors: Liu, Fushou, Wang, Libin, Jin, Dongping, Liu, Xiangdong, Lu, Pingli
Format: Article
Language:English
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Summary:•An equivalent micropolar beam model is obtained for the spatial vibration analysis of the planar truss with 3D flexible joints.•A high-precision deformation pattern is presented for the planar repeating element based on the micropolar continuum theory and considering the effect of warping torsion.•An exact two-node hybrid joint-beam element was derived for the member with two flexible joints at the ends based on the kinematic relationship and dynamic equilibrium between the member and joints. An equivalent micropolar beam modeling method for spatial vibration analysis of planar repetitive truss structures with flexible joints was presented. Firstly, by modeling each joint as a connection element comprising spring-dampers in six axes, a two-node hybrid joint-beam element was derived for the member with flexible end joints based on the kinematic relationship and the dynamic equilibrium between the member and the joints. Then, by using the micropolar continuum theory and considering the effect of warping torsion, a high-precision kinematic assumption for the deformation of the planar repeating element was presented. At last, an equivalent micropolar beam model was obtained for the planar truss structure based on the energy equivalence method. In the numerical example, the frequency response functions (FRFs) of the truss structure with different boundary conditions are evaluated, and a thorough comparison of the results of the equivalent micropolar beam model, the equivalent classical beam model and the full finite element model was made. The results demonstrated the high accuracy of the equivalent micropolar beam model. [Display omitted]
ISSN:0020-7403
1879-2162
DOI:10.1016/j.ijmecsci.2019.105202