In this paper, the nonlinear dynamic responses of the blade with variable thickness are investigated by simulating it as a rotating pretwisted cantilever conical shell with variable thickness. The governing equations of motion are derived based on the von Kármán nonlinear relationship, Hamilton’s principle, and the first-order shear deformation theory. Galerkin’s method is employed to transform the partial differential governing equations of motion to a set of nonlinear ordinary differential equations. Then, some important numerical results are presented in terms of significant input parameters
In this paper, the blade is assumed to be a rotating variable thickness cantilever twisted plate str...
Forced vibration of the cutting system with a three-dimensional composite cutter bar is investigated...
This research aims at the development and implementation of new model reduction methods for nonlinea...
In this paper, we propose a new nonlinear dynamic model of a rotor-blade system with whirling motion...
High speed rotating blades are crucial components of modern large aircraft engines. The rotating bla...
An approximate approach is proposed in this paper for analyzing the two-dimensional friction contact...
The non-linear equations of motion of a rotating blade undergoing extensional and flapwise bending v...
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 steady-state equilibrium deformations (SSEDs) caused by centrifugal force field in rotating blad...
The geometrically exact equations of motion about the prestressed state discussed in part 1 (i.e., t...
A dynamic model is proposed in this paper for analyzing the nonlinear characteristics of a flexible ...
The nonlinear forced vibration responses of integrally shrouded turbine blade considering different ...
This paper presents a new structural dynamic model with which vibration characteristics of rotating ...
A new structural dynamic model for the free vibration characteristic analysis of rotating pretwisted...
In this paper, the blade is assumed to be a rotating variable thickness cantilever twisted plate str...
Forced vibration of the cutting system with a three-dimensional composite cutter bar is investigated...
This research aims at the development and implementation of new model reduction methods for nonlinea...
In this paper, we propose a new nonlinear dynamic model of a rotor-blade system with whirling motion...
High speed rotating blades are crucial components of modern large aircraft engines. The rotating bla...
An approximate approach is proposed in this paper for analyzing the two-dimensional friction contact...
The non-linear equations of motion of a rotating blade undergoing extensional and flapwise bending v...
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 steady-state equilibrium deformations (SSEDs) caused by centrifugal force field in rotating blad...
The geometrically exact equations of motion about the prestressed state discussed in part 1 (i.e., t...
A dynamic model is proposed in this paper for analyzing the nonlinear characteristics of a flexible ...
The nonlinear forced vibration responses of integrally shrouded turbine blade considering different ...
This paper presents a new structural dynamic model with which vibration characteristics of rotating ...
A new structural dynamic model for the free vibration characteristic analysis of rotating pretwisted...
In this paper, the blade is assumed to be a rotating variable thickness cantilever twisted plate str...
Forced vibration of the cutting system with a three-dimensional composite cutter bar is investigated...
This research aims at the development and implementation of new model reduction methods for nonlinea...