The primary resonance response of an asymmetric Duffing oscillator with no linear stiffness term and with hardening characteristic is investigated in this paper. An approximate solution corresponding to the steady-state response is sought by applying the harmonic balance method. Its stability is also studied. It is found that different shapes of frequency–response curves can exist. Multiple-valued solutions, indicating the occurrence of jump phenomena, are observed analytically and confirmed numerically. The influence of the system parameters on the primary resonance response is also examine
Starting from the observation that classical asymptotic methods fail to correctly describe the reson...
We address two aspects of the dynamics of the forced Duffing oscillator which are relevant...
The third order superharmonic response of a Duffing oscillator to narrow band random excitation is a...
The primary resonance response of a non-linear oscillatory system that is excited by both a constant...
We study the dynamical response of an asymmetric forced, damped Helmholtz-Duffing oscillator by usin...
In this paper, simple approximate non-dimensional expressions, and the corresponding displacement am...
The effect of a strictly dissipative force (velocity to the pth power model) on the response and bif...
. This work is concerned with Duffing-type oscillators that have an amplitude-independent frequency/...
The ultraharmonic resonance of order 2, excited by a centrifugal type disturbing force, is investiga...
This article collects recent results concerning the behavior at resonance of forced oscillators driv...
The present study considers the nonlinear dynamics of a Duffing oscillator under a symmetric potenti...
The exact analytical solution of a system made of two coupled Duffing oscillators is obtained. The m...
The harmonic oscillations of a Duffing oscillator driven by a limited power supply are investigated ...
Quintic Duffing oscillator is considered. Amplitude-phase relations are derived using averaging theo...
An analytical approximate solution is constructed for the primary resonance response of a periodical...
Starting from the observation that classical asymptotic methods fail to correctly describe the reson...
We address two aspects of the dynamics of the forced Duffing oscillator which are relevant...
The third order superharmonic response of a Duffing oscillator to narrow band random excitation is a...
The primary resonance response of a non-linear oscillatory system that is excited by both a constant...
We study the dynamical response of an asymmetric forced, damped Helmholtz-Duffing oscillator by usin...
In this paper, simple approximate non-dimensional expressions, and the corresponding displacement am...
The effect of a strictly dissipative force (velocity to the pth power model) on the response and bif...
. This work is concerned with Duffing-type oscillators that have an amplitude-independent frequency/...
The ultraharmonic resonance of order 2, excited by a centrifugal type disturbing force, is investiga...
This article collects recent results concerning the behavior at resonance of forced oscillators driv...
The present study considers the nonlinear dynamics of a Duffing oscillator under a symmetric potenti...
The exact analytical solution of a system made of two coupled Duffing oscillators is obtained. The m...
The harmonic oscillations of a Duffing oscillator driven by a limited power supply are investigated ...
Quintic Duffing oscillator is considered. Amplitude-phase relations are derived using averaging theo...
An analytical approximate solution is constructed for the primary resonance response of a periodical...
Starting from the observation that classical asymptotic methods fail to correctly describe the reson...
We address two aspects of the dynamics of the forced Duffing oscillator which are relevant...
The third order superharmonic response of a Duffing oscillator to narrow band random excitation is a...