Described is a formal optimization procedure for helicopter rotor blade design which minimizes hover horsepower while assuring satisfactory forward flight performance. The approach is to couple hover and forward flight analysis programs with a general-purpose optimization procedure. The resulting optimization system provides a systematic evaluation of the rotor blade design variables and their interaction, thus reducing the time and cost of designing advanced rotor blades. The paper discusses the basis for and details of the overall procedure, describes the generation of advanced blade designs for representative Army helicopters, and compares design and design effort with those from the conventional approach which is based on parametric stu...
Industrial aerodynamic design optimization of helicopter rotor blades requires employ-ment of multi-...
The industrial aerodynamic design of helicopter rotor blades needs to consider the two typical fligh...
A joint activity involving NASA and Army researchers at NASA LaRC to develop optimization procedures...
Summarized here is the first six years of research into the integration of structural, dynamic, and ...
AbstractThis study proposes a process to obtain an optimal helicopter rotor blade shape for aerodyna...
An integrated aerodynamic/dynamic optimization procedure is used to minimize blade weight and 4 per ...
The design of new helicopter rotor blades is a challenging task. The individual blade sections under...
This paper describes a joint activity involving NASA and Army researchers at the NASA Langley Resear...
This paper presents a survey of applications of design optimization to helicopter problems carried o...
Aerodynamic performance aspects of rotor blade design are presented. Design considerations, aerodyna...
AbstractThe paper addresses the integration of blade dynamics, aerodynamics, structures and aeroelas...
The purpose of the research is to study the integration of structural, dynamic, and aerodynamic cons...
The problem of structural optimization of helicopter rotor blades with integrated dynamic and aerody...
The aim of this effort was to develop a comprehensive performance optimization capability for tiltro...
The aerodynamic design of rotor blades is challenging, and is crucial for the development of helicop...
Industrial aerodynamic design optimization of helicopter rotor blades requires employ-ment of multi-...
The industrial aerodynamic design of helicopter rotor blades needs to consider the two typical fligh...
A joint activity involving NASA and Army researchers at NASA LaRC to develop optimization procedures...
Summarized here is the first six years of research into the integration of structural, dynamic, and ...
AbstractThis study proposes a process to obtain an optimal helicopter rotor blade shape for aerodyna...
An integrated aerodynamic/dynamic optimization procedure is used to minimize blade weight and 4 per ...
The design of new helicopter rotor blades is a challenging task. The individual blade sections under...
This paper describes a joint activity involving NASA and Army researchers at the NASA Langley Resear...
This paper presents a survey of applications of design optimization to helicopter problems carried o...
Aerodynamic performance aspects of rotor blade design are presented. Design considerations, aerodyna...
AbstractThe paper addresses the integration of blade dynamics, aerodynamics, structures and aeroelas...
The purpose of the research is to study the integration of structural, dynamic, and aerodynamic cons...
The problem of structural optimization of helicopter rotor blades with integrated dynamic and aerody...
The aim of this effort was to develop a comprehensive performance optimization capability for tiltro...
The aerodynamic design of rotor blades is challenging, and is crucial for the development of helicop...
Industrial aerodynamic design optimization of helicopter rotor blades requires employ-ment of multi-...
The industrial aerodynamic design of helicopter rotor blades needs to consider the two typical fligh...
A joint activity involving NASA and Army researchers at NASA LaRC to develop optimization procedures...