Litcius/Paper detail

Parameter identification for a point-supported cross laminated timber slab based on experimental and numerical modal analysis

Michael Kawrza, Thomas Furtmüller, Christoph Adam, Roland Maderebner

2020European Journal of Wood and Wood Products20 citationsDOIOpen Access PDF

Abstract

Abstract In this paper, the dynamic properties of a point-supported cross-laminated timber slab are studied in order to determine the elastic material parameters on this basis. A detailed experimental modal analysis of the slab with dimensions 16.0 m x 11.0 m is performed, and seven modes including the natural frequencies, damping ratios and mode shape components at 651 sensor positions are identified. The found mode shapes are complex due to environmental influences that occurred during the two-day measurement campaign. This error is corrected by eliminating these influences. A finite element model of the slab is presented, whose parameters in terms of material properties and boundary conditions are determined by a model updating procedure. Based on the modal properties of the seven experimentally identified modes, an accurate and robust parameter set is obtained, which can be used in further numerical studies of the considered CLT to check serviceability limit criteria.

Topics & Concepts

SlabServiceability (structure)ModalStructural engineeringModal analysisFinite element methodModal testingNormal modeBasis (linear algebra)Mode (computer interface)Boundary value problemPoint (geometry)MathematicsEngineeringVibrationMaterials scienceMathematical analysisComputer sciencePhysicsGeometryAcousticsComposite materialOperating systemWood Treatment and PropertiesStructural Engineering and Vibration AnalysisStructural Analysis of Composite Materials