Numerical modeling and model updating for smart laminated structures with viscoelastic damping

• Published in: Smart materials and structures Vol. 27; no. 7; pp. 75038 - 75057
• Main Authors: Lu, Jun, Zhan, Zhenfei, Liu, Xu, Wang, Pan
• Format: Journal Article
• Language: English
• Published: IOP Publishing 01.07.2018
• Subjects: anelastic displacement fields; finite element modeling; model updating; smart laminated structure; viscoelastic damping
• ISSN: 0964-1726; 1361-665X
• DOI: 10.1088/1361-665X/aac623

This paper presents a numerical modeling method combined with model updating techniques for the analysis of smart laminated structures with viscoelastic damping. Starting with finite element formulation, the dynamics model with piezoelectric actuators is derived based on the constitutive law of the multilayer plate structure. The frequency-dependent characteristics of the viscoelastic core are represented utilizing the anelastic displacement fields (ADF) parametric model in the time domain. The analytical model is validated experimentally and used to analyze the influencing factors of kinetic parameters under parametric variations. Emphasis is placed upon model updating for smart laminated structures to improve the accuracy of the numerical model. Key design variables are selected through the smoothing spline ANOVA statistical technique to mitigate the computational cost. This updating strategy not only corrects the natural frequencies but also improves the accuracy of damping prediction. The effectiveness of the approach is examined through an application problem of a smart laminated plate. It is shown that a good consistency can be achieved between updated results and measurements. The proposed method is computationally efficient.