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Détail de l'auteur
Auteur Pei, S.
Documents disponibles écrits par cet auteur
Affiner la rechercheCoupled shear-bending formulation for seismic analysis of stacked wood shear wall systems / Pei, S. in Earthquake engineering structural dynamics, Vol. 38 N° 14 (Novembre 2009)
[article]
in Earthquake engineering structural dynamics > Vol. 38 N° 14 (Novembre 2009) . - pp. 1631-1647)
Titre : Coupled shear-bending formulation for seismic analysis of stacked wood shear wall systems Type de document : texte imprimé Auteurs : Pei, S., Auteur ; Van de Lindt, J. W., Auteur Article en page(s) : pp. 1631-1647) Note générale : Génie Civil Langues : Anglais (eng) Mots-clés : Multi-story light-frame wood building; Hold-down system ;Stacked shear wall; Shear-bending coupled model; Light-frame wood; Numerical model Index. décimale : 624.1 Infrastructures.Ouvrages en terre. Fondations. Tunnels Résumé : A summary of the development of a new coupled shear-bending model for analysis of stacked wood shear walls and multi-story wood-frame buildings is presented in this paper. The model focuses on dynamic response of light-frame wood structures under seismic excitation. The formulation is intended to provide a more versatile option than present pure shear models in that the new model is capable of accurately capturing the overall lateral response of each story diaphragm and separates the inter-story shear deformation and the deformation associated with rotation of the diaphragm due to rod elongation, which is an analogue to the bending deformation in an Euler-Bernoulli beam model. Modeling the coupling of bending and shear deformation is shown to provide more accurate representation of stacked shear wall system behavior than a pure shear model, particularly for the upper stories in the assembly. The formulation is coupled with the newly developed evolutionary parameter hysteretic model for wood shear walls. Existing data from a shake table test of an isolated three-story wood shear wall were used to verify the accuracy of the model prediction. The numerical results agreed very well with shake table test measurements. The influence of a continuous rod hold-down system on the dynamic behavior of the three-story stacked wood shear wall was also successfully simulated. ISSN : 0098-8847 En ligne : www.interscience.wiley.com/journal/eqe [article] Coupled shear-bending formulation for seismic analysis of stacked wood shear wall systems [texte imprimé] / Pei, S., Auteur ; Van de Lindt, J. W., Auteur . - pp. 1631-1647).
Génie Civil
Langues : Anglais (eng)
in Earthquake engineering structural dynamics > Vol. 38 N° 14 (Novembre 2009) . - pp. 1631-1647)
Mots-clés : Multi-story light-frame wood building; Hold-down system ;Stacked shear wall; Shear-bending coupled model; Light-frame wood; Numerical model Index. décimale : 624.1 Infrastructures.Ouvrages en terre. Fondations. Tunnels Résumé : A summary of the development of a new coupled shear-bending model for analysis of stacked wood shear walls and multi-story wood-frame buildings is presented in this paper. The model focuses on dynamic response of light-frame wood structures under seismic excitation. The formulation is intended to provide a more versatile option than present pure shear models in that the new model is capable of accurately capturing the overall lateral response of each story diaphragm and separates the inter-story shear deformation and the deformation associated with rotation of the diaphragm due to rod elongation, which is an analogue to the bending deformation in an Euler-Bernoulli beam model. Modeling the coupling of bending and shear deformation is shown to provide more accurate representation of stacked shear wall system behavior than a pure shear model, particularly for the upper stories in the assembly. The formulation is coupled with the newly developed evolutionary parameter hysteretic model for wood shear walls. Existing data from a shake table test of an isolated three-story wood shear wall were used to verify the accuracy of the model prediction. The numerical results agreed very well with shake table test measurements. The influence of a continuous rod hold-down system on the dynamic behavior of the three-story stacked wood shear wall was also successfully simulated. ISSN : 0098-8847 En ligne : www.interscience.wiley.com/journal/eqe