The effects on bending-torsion flutter due to the addition of a concentrated mass to an advanced turboprop model blade with rigid hub are studied. Specifically the effects of the magnitude and location of added mass on the natural frequencies, mode shapes, critical interblade phase angle, and flutter Mach number are analytically investigated. The flutter of a propfan model is shown to be sensitive to the change in mass distribution. Static unbalance effects, like those for fixed wings, were shown to occur as the concentrated mass was moved from the leading edge to the trailing edge with the exception of one mass location. Mass balancing is also inferred to be a feasible method for increasing the flutter speed
The effects of mistuning on flutter and forced response of a cascade in subsonic in subsonic and sup...
Three semi-empirical aerodynamic stall models are compared with respect to their lift and moment hys...
Semirigid flutter theory is used. Calculations are made on airfoils with fundamental bending frequen...
An analytical and experimental investigation of the effects of mistuning on propfan subsonic flutter...
Experimental results are presented that show the effects of blade pitch angle and number of blades o...
The NASA Lewis aeroelastic research program is focused on unstalled and stalled flutter, forced resp...
Experimental and analytical results are presented for a bending-torsion flutter phenomena encountere...
The effect of sweep on fan blade flutter is studied by applying the analytical methods developed for...
The expected aerodynamic effects of a propfan installed on a thick supercritical wing are summarized...
A structural and aeroelastic analysis of a large scale advanced turboprop rotor blade is presented. ...
An aeroelastic analysis is presented which accounts for the effect of steady aerodynamic loading on ...
An analytical technique for the prediction of fan blade flutter was evaluated by utilizing first sta...
A structural and aeroelastic analysis of the SR-7L advanced turboprop is presented. Analyses were co...
A study of rotor blade aeroelastic stability was carried out, using an analytic model of a two-dimen...
A flutter model, consisting of a wing, horizontal tail, and splitter plate/fuselage mechanism, was t...
The effects of mistuning on flutter and forced response of a cascade in subsonic in subsonic and sup...
Three semi-empirical aerodynamic stall models are compared with respect to their lift and moment hys...
Semirigid flutter theory is used. Calculations are made on airfoils with fundamental bending frequen...
An analytical and experimental investigation of the effects of mistuning on propfan subsonic flutter...
Experimental results are presented that show the effects of blade pitch angle and number of blades o...
The NASA Lewis aeroelastic research program is focused on unstalled and stalled flutter, forced resp...
Experimental and analytical results are presented for a bending-torsion flutter phenomena encountere...
The effect of sweep on fan blade flutter is studied by applying the analytical methods developed for...
The expected aerodynamic effects of a propfan installed on a thick supercritical wing are summarized...
A structural and aeroelastic analysis of a large scale advanced turboprop rotor blade is presented. ...
An aeroelastic analysis is presented which accounts for the effect of steady aerodynamic loading on ...
An analytical technique for the prediction of fan blade flutter was evaluated by utilizing first sta...
A structural and aeroelastic analysis of the SR-7L advanced turboprop is presented. Analyses were co...
A study of rotor blade aeroelastic stability was carried out, using an analytic model of a two-dimen...
A flutter model, consisting of a wing, horizontal tail, and splitter plate/fuselage mechanism, was t...
The effects of mistuning on flutter and forced response of a cascade in subsonic in subsonic and sup...
Three semi-empirical aerodynamic stall models are compared with respect to their lift and moment hys...
Semirigid flutter theory is used. Calculations are made on airfoils with fundamental bending frequen...