Tom Lauwagie scite author profile

The resonant-based identification of the in-plane elastic properties of orthotropic materials implies the estimation of four principal elastic parameters: E 1 , E 2 , G 12 , and ν 12 . The two elastic moduli and the shear modulus can easily be derived from the resonant frequencies of the flexural and torsional vibration modes, respectively. The identification of the Poisson's ratio, however, is much more challenging, since most frequencies are not sufficiently sensitive to it. The present work addresses this problem by determining the test specimen specifications that create the optimal conditions for the identification of the Poisson's ratio. Two methods are suggested for the determination of the Poisson's ratio of orthotropic materials: the first employs the resonant frequencies of a plate-shaped specimen, while the second uses the resonant frequencies of a set of beam-shaped specimens. Both methods are experimentally validated using a stainless steel sheet.

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Effects of microstructural heterogeneity on the mechanical properties of pressed soft magnetic composite bodies

Giménez

Lauwagie

Roebben

et al. 2006

Journal of Alloys and Compounds

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Tom Lauwagie

Determination of the in-plane elastic properties of the different layers of laminated plates by means of vibration testing and model updating

Mixed numerical–experimental identification of elastic properties of orthotropic metal plates

Resonant-based identification of the elastic properties of layered materials: Application to air-plasma sprayed thermal barrier coatings

Resonant-Based Identification of the Poisson’s Ratio of Orthotropic Materials

Effects of microstructural heterogeneity on the mechanical properties of pressed soft magnetic composite bodies

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