Impact control of structural vibrations excited by nonideal loads. / Controle por impacto de vibrações estruturais excitadas por carregamentos não-ideais.

AUTOR(ES)
DATA DE PUBLICAÇÃO

2006

RESUMO

We present mathematical models with few degrees of freedom for the study of nonlinear structural vibrations excited by a non ideal energy source, with impact damping, for two applications: a portal frame that supports an electric motor and a tower structure supporting an aeolian turbine. We consider that there is interaction between the energy supply and the motion of the supporting structure. If the power supplied by the energy source is not enough, the rotation of the engine may get stuck at a resonance frequency of the structure, disabling the engine to reach higher regimes of rotation. This is a manifestation of the so-called Sommerfeld Effect. In the first model, only two degrees of freedom are considered: the horizontal motion of the structure, in the transverse direction to the axis of the rotor, and the rotation of the rotor. Next, another degree of freedom is added to the model, representing the motion of a rolling small mass, free to bounce back and forth inside a chamber (impact damper). The equations of motion of these models are obtained via a Lagrangian approach. The parameters that produce the greatest effectiveness of the impact damper were studied through numerical simulations. One notices that the impact of the mass with the walls of the container supplies control of the vibration amplitude of the structure and the width of the band of frequencies where the Sommerfeld Effect occurs.

ASSUNTO(S)

amortecedores (impacto) passive control vibrações (controle) dinâmica das estruturas impact dampers nonideal power source vibration

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