In this paper, the large amplitude forced vibrations of thin rectangular plates made of different types of rubbers are investigated both experimentally and theoretically. The excitation is provided by a concentrated transversal harmonic load. Clamped boundary conditions at the edges are considered, while rotary inertia, geometric imperfections and shear deformation are neglected since they are negligible for the studied cases. The von Kármán nonlinear strain-displacement relationships are used in the theoretical study; the viscoelastic behaviour of the material is modelled using the Kelvin-Voigt model, which introduces nonlinear damping. An equivalent viscous damping model has also been created for comparison. In-plane pre-loads applied dur...
A non-linear identification technique based on the harmonic balance method is presented to obtain th...
International audienceIn the presented work, a non linear effect of rubber referred as Fletcher-Gent...
Experiments show a strong increase in damping with the vibration amplitude during nonlinear vibratio...
Three different dissipation models have been used to identify the increase of damping with the vibra...
Damping is largely increasing with the vibration amplitude during nonlinear vibrations of rectangula...
Damping is largely increasing with the vibration amplitude during nonlinear vibrations of rectangula...
The hyperelastic behavior of a thin square silicone rubber plate has been investigated analytically,...
Static deflection as well as free and forced large-amplitude vibrations of thin rectangular rubber p...
Experimental data clearly show a strong and nonlinear dependence of damping from the maximum vibrati...
Theoretical and experimental non-linear vibrations of thin rectangular plates and curved panels subj...
Static deflection as well as free and forced nonlinear vibration of thin square plates made of hyper...
In this work, geometrically nonlinear vibrations of fully clamped rectangular plates are used to stu...
Large-amplitude (geometrically nonlinear) forced vibrations of completely free sandwich rectangular ...
In the presented work, a non linear effect of rubber referred as Fletcher-Gent effect or Payne effec...
The effect of nonlinear elasticity on the free vibration behavior of elastic plates has been evaluat...
A non-linear identification technique based on the harmonic balance method is presented to obtain th...
International audienceIn the presented work, a non linear effect of rubber referred as Fletcher-Gent...
Experiments show a strong increase in damping with the vibration amplitude during nonlinear vibratio...
Three different dissipation models have been used to identify the increase of damping with the vibra...
Damping is largely increasing with the vibration amplitude during nonlinear vibrations of rectangula...
Damping is largely increasing with the vibration amplitude during nonlinear vibrations of rectangula...
The hyperelastic behavior of a thin square silicone rubber plate has been investigated analytically,...
Static deflection as well as free and forced large-amplitude vibrations of thin rectangular rubber p...
Experimental data clearly show a strong and nonlinear dependence of damping from the maximum vibrati...
Theoretical and experimental non-linear vibrations of thin rectangular plates and curved panels subj...
Static deflection as well as free and forced nonlinear vibration of thin square plates made of hyper...
In this work, geometrically nonlinear vibrations of fully clamped rectangular plates are used to stu...
Large-amplitude (geometrically nonlinear) forced vibrations of completely free sandwich rectangular ...
In the presented work, a non linear effect of rubber referred as Fletcher-Gent effect or Payne effec...
The effect of nonlinear elasticity on the free vibration behavior of elastic plates has been evaluat...
A non-linear identification technique based on the harmonic balance method is presented to obtain th...
International audienceIn the presented work, a non linear effect of rubber referred as Fletcher-Gent...
Experiments show a strong increase in damping with the vibration amplitude during nonlinear vibratio...