The paper describes the aeroelastic analysis of a tiltrotor configuration. The 1/5 scale wind tunnel semispan model of the V-22 tiltrotor aircraft is considered. The analysis is performed by means of a multi-body code, based on an original formulation. The differential equilibrium problem is stated in terms of first order differential equations. The equilibrium equations of every rigid body are written, together with the definitions of the momenta. The bodies are connected by kinematic constraints, applied in form of Lagrangian multipliers. Deformable components are mainly modelled by means of beam elements, based on an original finite volume formulation. Multi-disciplinar problems can be solved by adding user-defined differential equations...
A tilt-rotor aircraft can switch between two flight configurations (the helicopter configuration and...
A multibody model is presented which simulates the conversion process associated with tilt-wing airc...
A mid-fidelity aerodynamic solver based on the vortex particle method for wake modeling, DUST, is co...
The paper presents a multi-body analysis of the 1/5 scale wind tunnel model of the V-22 tiltrotor, t...
The objective of this investigation is to illustrate the steps involved in developing a multibody dy...
Tiltrotor aircraft are equipped with large rotors, usually driven by heavy engines in nacelles locat...
The objective of this investigation is to illustrate the steps involved in developing a multibody dy...
The objective of this investigation is to illustrate a modular approach in the development and valid...
AbstractThe previous study on modeling of the tilt rotor aircraft used to put a premium on the compl...
Tiltrotor aircraft are equipped with large rotors, usually driven by heavy engines in nacelles locat...
This paper focuses on the development of multibody numerical models to predict the dynamic response,...
A computer model of a tilt-rotor has been developed for calculating perfor-mance, simulating flight ...
The finite element multibody technique is applied to the aeroelastic modeling of tilt-rotors. We ana...
This work describes the application of an adaptive control algorithm based on the generalized predic...
A tilt-rotor aircraft can switch between two flight configurations (the helicopter configuration and...
A multibody model is presented which simulates the conversion process associated with tilt-wing airc...
A mid-fidelity aerodynamic solver based on the vortex particle method for wake modeling, DUST, is co...
The paper presents a multi-body analysis of the 1/5 scale wind tunnel model of the V-22 tiltrotor, t...
The objective of this investigation is to illustrate the steps involved in developing a multibody dy...
Tiltrotor aircraft are equipped with large rotors, usually driven by heavy engines in nacelles locat...
The objective of this investigation is to illustrate the steps involved in developing a multibody dy...
The objective of this investigation is to illustrate a modular approach in the development and valid...
AbstractThe previous study on modeling of the tilt rotor aircraft used to put a premium on the compl...
Tiltrotor aircraft are equipped with large rotors, usually driven by heavy engines in nacelles locat...
This paper focuses on the development of multibody numerical models to predict the dynamic response,...
A computer model of a tilt-rotor has been developed for calculating perfor-mance, simulating flight ...
The finite element multibody technique is applied to the aeroelastic modeling of tilt-rotors. We ana...
This work describes the application of an adaptive control algorithm based on the generalized predic...
A tilt-rotor aircraft can switch between two flight configurations (the helicopter configuration and...
A multibody model is presented which simulates the conversion process associated with tilt-wing airc...
A mid-fidelity aerodynamic solver based on the vortex particle method for wake modeling, DUST, is co...