Add to ORKGThe equilibrium and stability of the coupled elastic lead/lag, flap, and torsion motion of a cantilever rotor blade in hover are addressed, and the influence of several higher-order terms in the equations of motion of the blade is determined for a range of values of collective pitch. The blade is assumed to be untwisted and to have uniform properties along its span. In addition, chordwise offsets between its elastic, tension, mass, and aerodynamic centers are assumed to be negligible for simplicity. The aerodynamic forces acting on the blade are modeled using a quasi-steady, strip-theory approximation
Theoretical predictions of aeroelastic stability are compared with experimental, isolated, hingeless...
Equations of motion are used to investigate the effects of the choice of the mode shape and built-in...
Theoretical and experimental developments in the aeroelastic and aeromechanical stability of helicop...
The differential equations of motion, and boundary conditions, describing the flap-lead/lag-torsiona...
The stability of elastic flap bending, lead-lag bending, and torsion of uniform, untwisted, cantilev...
Equations for large coupled flap-lag motion of hingeless elastic helicopter blades are consistently ...
The dynamic stability of the flap/lag/torsion motion of a uniform, cantilever rotor blade in hover i...
[[abstract]]The lead-lag mode is the most sensitive motion in a helicopter rotoraeroelastic analysis...
The nonlinear partial differential equations for the flapping and lead-lag degrees of freedom of a t...
[[abstract]]In this research, the rotary-wing blade with an on-blade Trailing-Edge-Flap (TEF) is con...
The aeroelastic stability of a circulation control rotor blade undergoing three degrees of motion (f...
AbstractThe aeroelastic stability of flap bending, lead-lag bending and torsion of hingeless and bea...
Nonlinear equations of motion for a cantilever rotor blade are derived for the hovering flight condi...
The formulation of differential equations of motion for both extensional and inextensional rotor bla...
Equations for large amplitude coupled flaplag motion of a hingeless elastic helicopter blade in forw...
Theoretical predictions of aeroelastic stability are compared with experimental, isolated, hingeless...
Equations of motion are used to investigate the effects of the choice of the mode shape and built-in...
Theoretical and experimental developments in the aeroelastic and aeromechanical stability of helicop...
The differential equations of motion, and boundary conditions, describing the flap-lead/lag-torsiona...
The stability of elastic flap bending, lead-lag bending, and torsion of uniform, untwisted, cantilev...
Equations for large coupled flap-lag motion of hingeless elastic helicopter blades are consistently ...
The dynamic stability of the flap/lag/torsion motion of a uniform, cantilever rotor blade in hover i...
[[abstract]]The lead-lag mode is the most sensitive motion in a helicopter rotoraeroelastic analysis...
The nonlinear partial differential equations for the flapping and lead-lag degrees of freedom of a t...
[[abstract]]In this research, the rotary-wing blade with an on-blade Trailing-Edge-Flap (TEF) is con...
The aeroelastic stability of a circulation control rotor blade undergoing three degrees of motion (f...
AbstractThe aeroelastic stability of flap bending, lead-lag bending and torsion of hingeless and bea...
Nonlinear equations of motion for a cantilever rotor blade are derived for the hovering flight condi...
The formulation of differential equations of motion for both extensional and inextensional rotor bla...
Equations for large amplitude coupled flaplag motion of a hingeless elastic helicopter blade in forw...
Theoretical predictions of aeroelastic stability are compared with experimental, isolated, hingeless...
Equations of motion are used to investigate the effects of the choice of the mode shape and built-in...
Theoretical and experimental developments in the aeroelastic and aeromechanical stability of helicop...