Open AccessAn elastic-interface model for the mixed-mode bending test under cyclic loads
Author(s) -
Stefano Bennati,
Paolo Fisicaro,
Paolo S. Valvo
Publication year - 2016
Publication title -
procedia structural integrity
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.285
H-Index - 18
ISSN - 2452-3216
DOI - 10.1016/j.prostr.2016.06.010
Subject(s) - delamination (geology) , bending , structural engineering , mixed mode , materials science , mode (computer interface) , boundary value problem , interface (matter) , fracture (geology) , brittleness , mechanics , mathematical analysis , composite material , mathematics , computer science , physics , engineering , geology , paleontology , capillary number , capillary action , operating system , subduction , tectonics
We have developed a mechanical model of the mixed-mode bending (MMB) test, whereby the specimen is considered as an assemblage of two identical sublaminates, modelled as Timoshenko beams. The sublaminates are partly connected by a linearly elastic–brittle interface, transmitting stresses along both the normal and tangential directions with respect to the interface plane. The model is described by a set of suitable differential equations and boundary conditions. Based on the explicit solution of this problem and following an approach already adopted to model buckling-driven delamination growth in fatigue, we analyse the response of the MMB test specimen under cyclic loads. Exploiting the available analytical solution, we apply a fracture mode-dependent fatigue growth law. As a result, the number of cycles needed for a delamination to extend to a given length can be predicted
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