The non-linear equations of motion of a rotating blade undergoing extensional and flapwise bending vibration are derived, including non-linearities up to O (ε3). The strain-displacement relationship derived is compared with expressions derived by earlier investigators and the errors and the approximations made in some of those are brought out. The equations of motion are solved under the inextensionality condition to obtain the influence of the amplitude on the fundamental flapwise natural frequency of the rotating blade. It is found that large finite amplitudes have a softening effect on the flapwise frequency and that this influence becomes stronger at higher speeds of rotation
Considering spin softening and centrifugal stiffening effect of blades, the parameterized finite ele...
The effects of pretwist, precone, setting angle, Coriolis forces and second degree geometric nonline...
Abstract. An approximate approach is proposed in this paper for analyzing the two-dimensional fricti...
The non-linear equations of motion of a rotating blade undergoing extensional and flapwise bending v...
The geometrically exact equations of motion about the prestressed state discussed in part 1 (i.e., t...
The large amplitude non-linear vibratory behavior of a rotating cantilever beam is addressed in this...
In this paper, the nonlinear dynamic responses of the blade with variable thickness are investigated...
ABSTRACT This paper is concerned with the significance of the effects of shear deformation, rotatory...
A geometrically exact mechanical model for the overall dynamics of elastic isotropic rotating blades...
An approximate approach is proposed in this paper for analyzing the two-dimensional friction contact...
In this paper, we propose a new nonlinear dynamic model of a rotor-blade system with whirling motion...
Free vibration analysis of a twisted, double-tapered blade mounted on a rotating disk undergoing ove...
The steady-state equilibrium deformations (SSEDs) caused by centrifugal force field in rotating blad...
The paper deals with the formulation of non-linear vibrations of a wind turbine wing described in a ...
Abstract: This paper presents an approximate analysis of the vibration stability of a rotating blade...
Considering spin softening and centrifugal stiffening effect of blades, the parameterized finite ele...
The effects of pretwist, precone, setting angle, Coriolis forces and second degree geometric nonline...
Abstract. An approximate approach is proposed in this paper for analyzing the two-dimensional fricti...
The non-linear equations of motion of a rotating blade undergoing extensional and flapwise bending v...
The geometrically exact equations of motion about the prestressed state discussed in part 1 (i.e., t...
The large amplitude non-linear vibratory behavior of a rotating cantilever beam is addressed in this...
In this paper, the nonlinear dynamic responses of the blade with variable thickness are investigated...
ABSTRACT This paper is concerned with the significance of the effects of shear deformation, rotatory...
A geometrically exact mechanical model for the overall dynamics of elastic isotropic rotating blades...
An approximate approach is proposed in this paper for analyzing the two-dimensional friction contact...
In this paper, we propose a new nonlinear dynamic model of a rotor-blade system with whirling motion...
Free vibration analysis of a twisted, double-tapered blade mounted on a rotating disk undergoing ove...
The steady-state equilibrium deformations (SSEDs) caused by centrifugal force field in rotating blad...
The paper deals with the formulation of non-linear vibrations of a wind turbine wing described in a ...
Abstract: This paper presents an approximate analysis of the vibration stability of a rotating blade...
Considering spin softening and centrifugal stiffening effect of blades, the parameterized finite ele...
The effects of pretwist, precone, setting angle, Coriolis forces and second degree geometric nonline...
Abstract. An approximate approach is proposed in this paper for analyzing the two-dimensional fricti...