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Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Timber beams loaded perpendicular to grain by multiple connections
Highlights Empirical models over-estimate the splitting strength for multiple connections. Linear fracture mechanical models predict the splitting behaviour of a simply supported beam with two connections well. No models yet exist able to predict the splitting phenomenon when three or more connections are applied. Test results show the splitting failure load to be strongly non-linear with the number of connections.
Abstract In timber structures, beams which are loaded perpendicular to grain by connections along the span may fail by splitting, resulting in the collapse of the beam. In the past, empirical, semi-empirical and fracture mechanical models have been developed aiming at predicting the splitting failure load. Recent experiments with two and three connections show the empirical models to be very non-conservative in predicting the effect of multiple connections. Fracture mechanical models that are better equipped to estimate the failure load but the result dependents on the assumed crack growth direction. Test results with three connections cannot be explained by any of the models yet. Some structural design codes provisions are unsuitable and can result in very non-conservative predictions while others result in a conservative estimation of the splitting failure load.
Timber beams loaded perpendicular to grain by multiple connections
Highlights Empirical models over-estimate the splitting strength for multiple connections. Linear fracture mechanical models predict the splitting behaviour of a simply supported beam with two connections well. No models yet exist able to predict the splitting phenomenon when three or more connections are applied. Test results show the splitting failure load to be strongly non-linear with the number of connections.
Abstract In timber structures, beams which are loaded perpendicular to grain by connections along the span may fail by splitting, resulting in the collapse of the beam. In the past, empirical, semi-empirical and fracture mechanical models have been developed aiming at predicting the splitting failure load. Recent experiments with two and three connections show the empirical models to be very non-conservative in predicting the effect of multiple connections. Fracture mechanical models that are better equipped to estimate the failure load but the result dependents on the assumed crack growth direction. Test results with three connections cannot be explained by any of the models yet. Some structural design codes provisions are unsuitable and can result in very non-conservative predictions while others result in a conservative estimation of the splitting failure load.
Timber beams loaded perpendicular to grain by multiple connections
Leijten, A.J.M. (Autor:in) / Schoenmakers, J.C.M. (Dennis) (Autor:in)
Engineering Structures ; 80 ; 147-152
27.08.2014
6 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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