Three different dissipation models have been used to identify the increase of damping with the vibration amplitude for a rubber rectangular plate. For this purpose, a square rubber plate made of silicone with fixed edges has been tested and its linear and nonlinear responses have been measured by laser Doppler vibrometers. First, a reduced-order model, using energy based approach and global discretization, has been constructed, taking into account geometric imperfections; the linear viscous damping at each excitation level in the nonlinear regime has been identified from the experimental data. This numerical model with linear viscous damping has been widely validated and constitutes the basis for comparison with subsequent damping identific...
Thin-walled, e. g. shells and plates, and slender, e. g. beams, structures are widespread in mechani...
Experimental data clearly show a strong and nonlinear dependence of damping from the maximum vibrati...
A procedure is presented to identify the nonlinear damping and stiffness parameters of a single-degr...
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...
In this paper, the large amplitude forced vibrations of thin rectangular plates made of different ty...
Experiments show a strong increase in damping with the vibration amplitude during nonlinear vibratio...
The aim of this work is to propose a mathematical model in terms of an exact analytical solution tha...
This paper present a nonlinear viscoelastic model for dynamic behaviour of the dissipative materials...
A viscoelastic model for a shear-deformable microplate is developed in this paper while accounting f...
A nonlinear identification technique is presented to obtain the damping of isotropic and laminated s...
A non-linear identification technique based on the harmonic balance method is presented to obtain th...
none2Non-conventional rheological models based on non-integer order differential operators can be us...
The damping assessment of highly dissipative materials is a challenging task that has been addressed...
Damping is present in all dynamic systems. In one way or another energy is being dissipated in the s...
Thin-walled, e. g. shells and plates, and slender, e. g. beams, structures are widespread in mechani...
Experimental data clearly show a strong and nonlinear dependence of damping from the maximum vibrati...
A procedure is presented to identify the nonlinear damping and stiffness parameters of a single-degr...
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...
In this paper, the large amplitude forced vibrations of thin rectangular plates made of different ty...
Experiments show a strong increase in damping with the vibration amplitude during nonlinear vibratio...
The aim of this work is to propose a mathematical model in terms of an exact analytical solution tha...
This paper present a nonlinear viscoelastic model for dynamic behaviour of the dissipative materials...
A viscoelastic model for a shear-deformable microplate is developed in this paper while accounting f...
A nonlinear identification technique is presented to obtain the damping of isotropic and laminated s...
A non-linear identification technique based on the harmonic balance method is presented to obtain th...
none2Non-conventional rheological models based on non-integer order differential operators can be us...
The damping assessment of highly dissipative materials is a challenging task that has been addressed...
Damping is present in all dynamic systems. In one way or another energy is being dissipated in the s...
Thin-walled, e. g. shells and plates, and slender, e. g. beams, structures are widespread in mechani...
Experimental data clearly show a strong and nonlinear dependence of damping from the maximum vibrati...
A procedure is presented to identify the nonlinear damping and stiffness parameters of a single-degr...