The galloping response of a two-degree-of-freedom system is investigated using asymptotic techniques to generate approximate steady-state solutions. Simple closed-form analytic solutions and stability criteria are presented for the case where the two structural natural frequencies are harmonically separated. Examples of the nature of the galloping response of a particular section are presented for the case where the frequencies are harmonically separated as well as for the case where the two natural frequencies are near an integer multiple of each other. The results of the approximate analysis are compared with experimental and numerical results
The method of normal forms is used to study the nonlinear response of two-degree-of-freedom systems ...
Models are developed for both multi-degree-of-freedom aerodynamic galloping and vortex induced oscil...
The response of a one-degree-of-freedom system with quadratic and cubic non-linearities to a fundame...
A linearized coupled flexural two degree-of-freedom model, describing a lumped parameter system subj...
A coupled, linearized, flexural two degree-of-freedom model, describing a flexible structure subject...
A global stability and bifurcation analysis of the transverse galloping of a square section beam in ...
International audienceThis paper describes the dynamic behaviour of a coupled system which includes ...
The response of two-degree-of-freedom chain systems with elements which have hysteretic restoring fo...
International audienceAn analysis is presented for determining exact steady state response for a cla...
The galloping vibrations of a single transmission cable that may vibrate transversely and torsionall...
This paper presents an analysis of the aeroelastic galloping of an elastically mounted square cross ...
In this thesis a mathematical model for the combined effects of vortex-induced oscillation and gallo...
Classical quasi-steady galloping analysis deals exclusively with cases of across-wind vibrations, le...
The response of two-degree-of-freedom systems with quadratic non-linearities to a combination parame...
This paper discusses the dynamic behaviour of a nonlinear two degree-of-freedom system consisting of...
The method of normal forms is used to study the nonlinear response of two-degree-of-freedom systems ...
Models are developed for both multi-degree-of-freedom aerodynamic galloping and vortex induced oscil...
The response of a one-degree-of-freedom system with quadratic and cubic non-linearities to a fundame...
A linearized coupled flexural two degree-of-freedom model, describing a lumped parameter system subj...
A coupled, linearized, flexural two degree-of-freedom model, describing a flexible structure subject...
A global stability and bifurcation analysis of the transverse galloping of a square section beam in ...
International audienceThis paper describes the dynamic behaviour of a coupled system which includes ...
The response of two-degree-of-freedom chain systems with elements which have hysteretic restoring fo...
International audienceAn analysis is presented for determining exact steady state response for a cla...
The galloping vibrations of a single transmission cable that may vibrate transversely and torsionall...
This paper presents an analysis of the aeroelastic galloping of an elastically mounted square cross ...
In this thesis a mathematical model for the combined effects of vortex-induced oscillation and gallo...
Classical quasi-steady galloping analysis deals exclusively with cases of across-wind vibrations, le...
The response of two-degree-of-freedom systems with quadratic non-linearities to a combination parame...
This paper discusses the dynamic behaviour of a nonlinear two degree-of-freedom system consisting of...
The method of normal forms is used to study the nonlinear response of two-degree-of-freedom systems ...
Models are developed for both multi-degree-of-freedom aerodynamic galloping and vortex induced oscil...
The response of a one-degree-of-freedom system with quadratic and cubic non-linearities to a fundame...