Bolted joints are essential elements of mechanical structures and metal constructions. Although their static behaviour is fairly well known, their dynamic behaviour due to shocks and vibrations has been less studied, because of the large size of the finite element models needed for a detailed simulation. This work presents four different simplified models suitable for studying the dynamic behaviour of an elementary bolted joint. Three of them include contact elements to allow sliding of the screw head and the nut on the assembled parts, and the last one allows rotation between screw and nut. A penalty approach based on the Coulomb friction model is used to model contact. The results show that these models effectively represent the dynamic behaviour, with different accuracy depending on the model details. The last model simulates the self loosening of a bolt subjected to transversal vibrations.
Olfa Ksentini, Mohamed Slim Abbes and Mohamed Haddar: Laboratory of Mechanics, Modelisation and Manufacturing, National School of Engineers of Sfax, Sfax University, BP 1173-3038,Sfax, Tunisia
Olfa Ksentini, Bertrand Combes and Alain Daidie: Institute Clement Ader, University of Toulouse, National Institute of Applied Sciences of Toulouse, 31077 Toulouse, France
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