3D model of rigid block with a rectangular base subject to pulse-type excitation

• Published in: International journal of non-linear mechanics Vol. 47; no. 6; pp. 679 - 687
• Main Authors: Zulli, Daniele, Contento, Alessandro, Di Egidio, Angelo
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.07.2012
• Subjects: 3D rigid block; Amplitudes; Base excitation; Blocking; Eccentricity; Equations of motion; Excitation; One-sine pulse; Overturning; Rectangular base; Rigid-body dynamics; Rocking; Three dimensional; Three dimensional models; Rectangular base; Base excitation; Rocking; One-sine pulse; 3D rigid block; Overturning
• ISSN: 0020-7462; 1878-5638
• DOI: 10.1016/j.ijnonlinmec.2011.11.004

A model of 3D rigid body with a rectangular base, able to rock around a side or a vertex of the base is developed. Eccentricity of the center of mass with respect to the geometrical center of the body is also considered. The equations of motion are obtained through the general balance principle. A one-sine pulse base excitation is applied to the body in different directions. The analyses are conducted with the aim to highlight the role of the period, the amplitude and the direction of the external excitation. In significant ranges of the previous parameters, the results obtained with a bi-dimensional model, that does not consider the 3D rocking motions on a vertex of the base, are not in favor of safety. It is found, in fact, that in several conditions the overturning of the 3D block takes place for amplitudes of excitation smaller than those able to overturn the 3D block. ► 3D non-symmetric rigid block. ► Rectangular base. ► Support motion due to a one-sine pulse. ► Rocking on a side or a vertex of the base. ► Role of the excitation parameters on the overturning.