Forced oscillations of a two degree-of-freedom autoparametric system are studied with moderately high excitations. The approximate results obtained by the method of harmonic balance are found to be satisfactory by comparing with those obtained by numerical integration. In the primary parametric instability zone, separate regions of stable and unstable harmonic solutions are obtained. In the regions of unstable harmonic solutions, depending on the forcing amplitude and frequency, the solutions may be amplitude modulated or completely nonperiodic. In the latter case the numerical integrations do not converge
AbstractThe effects of periodic parametric perturbations on a system undergoing Hopf bifurcation are...
In many engineering, physical, electrical, chemical, and biological systems, oscillatory behavior of...
When an engineering structure is loaded by a vibratory source such as a motor, resonances occur in t...
Chaotic oscillations arising in forced oscillations of a two degree-of-freedom autoparametric system...
We consider an autoparametric system which consists of an oscillator coupled with a parametricallyex...
Various types of self-excited oscillators are implemented into an autoparametric system, and the stu...
The response of a one-degree-of-freedom system with quadratic and cubic non-linearities to a fundame...
The response of a one-degree-of-freedom system with quadratic and cubic non-linearities to a princip...
Harmonic forced vibration of a spring-mass-damper system with a parametrically excited pendulum hing...
A general first order theory is presented for treating forced oscillations in multiple degree of fre...
Consider a one-mass system with two degrees of freedom, non-linearly coupled, with parametric excita...
The response of two-degree-of-freedom systems with quadratic non-linearities to a combination parame...
International audienceIn this paper, forced responses are investigated in a two degree-of-freedom li...
When a mechanical system consists of two or more coupled vibrating components, the vibration of one ...
Parametrically disturbed systems with 2 and n degrees of freedom are investigated in the paper. As a...
AbstractThe effects of periodic parametric perturbations on a system undergoing Hopf bifurcation are...
In many engineering, physical, electrical, chemical, and biological systems, oscillatory behavior of...
When an engineering structure is loaded by a vibratory source such as a motor, resonances occur in t...
Chaotic oscillations arising in forced oscillations of a two degree-of-freedom autoparametric system...
We consider an autoparametric system which consists of an oscillator coupled with a parametricallyex...
Various types of self-excited oscillators are implemented into an autoparametric system, and the stu...
The response of a one-degree-of-freedom system with quadratic and cubic non-linearities to a fundame...
The response of a one-degree-of-freedom system with quadratic and cubic non-linearities to a princip...
Harmonic forced vibration of a spring-mass-damper system with a parametrically excited pendulum hing...
A general first order theory is presented for treating forced oscillations in multiple degree of fre...
Consider a one-mass system with two degrees of freedom, non-linearly coupled, with parametric excita...
The response of two-degree-of-freedom systems with quadratic non-linearities to a combination parame...
International audienceIn this paper, forced responses are investigated in a two degree-of-freedom li...
When a mechanical system consists of two or more coupled vibrating components, the vibration of one ...
Parametrically disturbed systems with 2 and n degrees of freedom are investigated in the paper. As a...
AbstractThe effects of periodic parametric perturbations on a system undergoing Hopf bifurcation are...
In many engineering, physical, electrical, chemical, and biological systems, oscillatory behavior of...
When an engineering structure is loaded by a vibratory source such as a motor, resonances occur in t...