Bifurcation analysis of a composite cantilever beam via 1:3 internal resonance

Abstract: In this paper, we study a multiple scales perturbation and numerical solution for vibrations analysis and control of a system which simulates the vibrations of a nonlinear composite beam model. System of second order differential equations with nonlinearity due to quadratic and cubic terms, excited by parametric and external excitations, are presented. The controller is implemented to control one frequency at primary and parametric resonance where damage in the mechanical system is probable. Active control is … Show more

“…They introduced a linear proportionalderivative controller to suppress the lateral vibrations of the rotating shaft. Perturbation and numerical solution for vibrations analysis and controlling of a system which simulates the vibrations of a nonlinear composite beam model were discussed by M. sayed et al [32]. The stability analysis of the system were obtained by frequency response (FR).…”

Vibration Control for a Coupled Pitch- roll Ship Model Via a Negative Cubic Velocity Feedback Control

“…They introduced a linear proportionalderivative controller to suppress the lateral vibrations of the rotating shaft. Perturbation and numerical solution for vibrations analysis and controlling of a system which simulates the vibrations of a nonlinear composite beam model were discussed by M. sayed et al [32]. The stability analysis of the system were obtained by frequency response (FR).…”

Vibration Control for a Coupled Pitch- roll Ship Model Via a Negative Cubic Velocity Feedback Control

Linear and nonlinear free vibration analysis of super-light composite beams with honeycomb core layer and adjustable Poisson’s ratio using multiple-scale method

Chaos and subharmonic bifurcation of a composite laminated buckled beam with a lumped mass