The European approach adopted to predict the joint behaviour is based on the so-called component method, which starts from the identification and characterization of a number of components used to assembly a mechanical model able to predict the joint rotational behaviour. In case of bolted joints, usually the components representing the main sources of resistance and deformability (i.e. the bolted plates), can be modelled by means of equivalent T-stubs, whose characterization has a key role in order to get the whole joint response. Therefore, in this work, the attention is focused on the behaviour of the T-stub proposing a new mechanical model including all the physical effects involved in the deformation mechanism. At the end of the work, in order to evaluate the accuracy of the model, a comparison versus twelve experimental tests is proposed.
A REFINED THEORETICAL MODEL FOR PREDICTING THE ULTIMATE BEHAVIOUR OF BOLTED T-STUBS
FRANCAVILLA, ANTONELLA BIANCA;LATOUR, MASSIMO;PILUSO, Vincenzo;RIZZANO, Gianvittorio
2015-01-01
Abstract
The European approach adopted to predict the joint behaviour is based on the so-called component method, which starts from the identification and characterization of a number of components used to assembly a mechanical model able to predict the joint rotational behaviour. In case of bolted joints, usually the components representing the main sources of resistance and deformability (i.e. the bolted plates), can be modelled by means of equivalent T-stubs, whose characterization has a key role in order to get the whole joint response. Therefore, in this work, the attention is focused on the behaviour of the T-stub proposing a new mechanical model including all the physical effects involved in the deformation mechanism. At the end of the work, in order to evaluate the accuracy of the model, a comparison versus twelve experimental tests is proposed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
