A benchmark test to aid the development of various rotor performance codes was conducted. Simultaneous blade pressure measurements and tip vortex surveys were made for a wide range of tip Mach numbers including the transonic flow regime. The measured tip vortex strength and geometry permit effective blade loading predictions when used as input to a prescribed wake lifting surface code. It is also shown that with proper inflow and boundary layer modeling, the supercritical flow regime can be accurately predicted
An experimental investigation was conducted in the Langley 14- by 22-Foot Subsonic Tunnel to quantif...
The performance and aeroelastic stability in hover of a 9.8-m diameter, hingeless helicopter rotor s...
An experimental and theoretical investigation of rotor/wing aerodynamic interactions in hover is des...
The present study is a benchmark test to aid the development of various rotor performance codes. The...
A laser velocimeter was used to study the flow surrounding a 2.13 m diam. two-bladed, teetering mode...
A potential-flow panel method was modified to calculate the effects of a rotor wake on the time-aver...
An analytical study was conducted to predict the aerodynamic characteristics of two helicopter rotor...
Hot-wire anemometry to analyze the structure and geometry of rotary wing trailing vortices is studie...
A model for each of the basic flow elements involved in the unsteady stall of a two-dimensional airf...
Surface pressures were measured near the tip of a hovering single-bladed model helicopter rotor with...
A wind tunnel test program was conducted on an eight foot diameter model rotor system to determine b...
Data from a wind tunnel investigation of the flow fields around helicopter rotors were presented. A ...
Tabulated performance data of full-scale rotary wings at high advance ratios and advancing tip Mach ...
The accuracy of various methods used to predict tilt rotor hover performance was established by comp...
In this paper, a comprehensive experimental survey of the aerodynamic interaction of a hovering roto...
An experimental investigation was conducted in the Langley 14- by 22-Foot Subsonic Tunnel to quantif...
The performance and aeroelastic stability in hover of a 9.8-m diameter, hingeless helicopter rotor s...
An experimental and theoretical investigation of rotor/wing aerodynamic interactions in hover is des...
The present study is a benchmark test to aid the development of various rotor performance codes. The...
A laser velocimeter was used to study the flow surrounding a 2.13 m diam. two-bladed, teetering mode...
A potential-flow panel method was modified to calculate the effects of a rotor wake on the time-aver...
An analytical study was conducted to predict the aerodynamic characteristics of two helicopter rotor...
Hot-wire anemometry to analyze the structure and geometry of rotary wing trailing vortices is studie...
A model for each of the basic flow elements involved in the unsteady stall of a two-dimensional airf...
Surface pressures were measured near the tip of a hovering single-bladed model helicopter rotor with...
A wind tunnel test program was conducted on an eight foot diameter model rotor system to determine b...
Data from a wind tunnel investigation of the flow fields around helicopter rotors were presented. A ...
Tabulated performance data of full-scale rotary wings at high advance ratios and advancing tip Mach ...
The accuracy of various methods used to predict tilt rotor hover performance was established by comp...
In this paper, a comprehensive experimental survey of the aerodynamic interaction of a hovering roto...
An experimental investigation was conducted in the Langley 14- by 22-Foot Subsonic Tunnel to quantif...
The performance and aeroelastic stability in hover of a 9.8-m diameter, hingeless helicopter rotor s...
An experimental and theoretical investigation of rotor/wing aerodynamic interactions in hover is des...