1. Finite Element Modeling of the Dynamic Response of Plywood.
- Author
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Charuk, Arkadiusz, Gawdzińska, Katarzyna, and Dunaj, Paweł
- Subjects
- *
WOOD veneers & veneering , *ENGINEERED wood , *FINITE element method , *WOOD chemistry , *MODAL analysis - Abstract
Modeling the dynamic properties of wood and wood-based composites is a challenging task due to naturally growing structure and moisture-dependent material properties. This paper presents the finite element modeling of plywood panels' dynamic properties. Two panels differing in thickness were analyzed: (i) 18 mm and (ii) 27 mm. The developed models consisted of individual layers of wood, which were discretized using three-dimensional finite elements formulated using an orthotropic material model. The models were subjected to an updating procedure based on experimentally determined frequency response functions. As a result of a model updating relative errors for natural frequencies obtained numerically and experimentally were not exceeding 2.0%, on average 0.7% for 18 mm thick panel and not exceeding 2.6%, on average 1.5% for 27 mm thick panel. To prove the utility of the method and at the same time to validate it, a model of a cabinet was built, which was then subjected to experimental verification. In this case, average relative differences for natural frequencies of 6.6% were obtained. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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