Add to ORKGThe optimal design of helicopter rotor blades is addressed. The forced response of an initial (i.e., non-optimized) blade to those of a final (optimized) blade are compared. Response of starting design and optimal designs for varying forcing frequencies, blade response to harmonics of rotor speed, and derivation of mass and stiffness matrices or functions of natural frequencies are discussed
Described is a formal optimization procedure for helicopter rotor blade design which minimizes hover...
The problem of structural optimization of helicopter rotor blades with integrated dynamic and aerody...
Summarized here is the first six years of research into the integration of structural, dynamic, and ...
The mass and stiffness distributions for helicopter rotor blades are tailored in such a way to give ...
The possibilities and the limitations of tailoring blade mass and stiffness distributions to give an...
The possibilities and limitations of tailoring blade mass and stiffness distributions to give an opt...
AbstractThe mass and stiffness distributions for helicopter rotor blades are to be tailored in such ...
The rotor dynamic design considerations are essentially limitations on the vibratory response of the...
An investigation is made of the dynamic and aerodynamic performance of a helicopter rotor previously...
AbstractThe paper addresses the integration of blade dynamics, aerodynamics, structures and aeroelas...
The minimum weight design of a helicopter rotor blade subject to constraints on coupled flap-lag nat...
AbstractThe mass and stiffness distributions for helicopter rotor blades are to be tailored in such ...
The importance of blade design parameters in rotor vibratory response and the design of a minimum vi...
Aerodynamic performance aspects of rotor blade design are presented. Design considerations, aerodyna...
The purpose of the research is to study the integration of structural, dynamic, and aerodynamic cons...
Described is a formal optimization procedure for helicopter rotor blade design which minimizes hover...
The problem of structural optimization of helicopter rotor blades with integrated dynamic and aerody...
Summarized here is the first six years of research into the integration of structural, dynamic, and ...
The mass and stiffness distributions for helicopter rotor blades are tailored in such a way to give ...
The possibilities and the limitations of tailoring blade mass and stiffness distributions to give an...
The possibilities and limitations of tailoring blade mass and stiffness distributions to give an opt...
AbstractThe mass and stiffness distributions for helicopter rotor blades are to be tailored in such ...
The rotor dynamic design considerations are essentially limitations on the vibratory response of the...
An investigation is made of the dynamic and aerodynamic performance of a helicopter rotor previously...
AbstractThe paper addresses the integration of blade dynamics, aerodynamics, structures and aeroelas...
The minimum weight design of a helicopter rotor blade subject to constraints on coupled flap-lag nat...
AbstractThe mass and stiffness distributions for helicopter rotor blades are to be tailored in such ...
The importance of blade design parameters in rotor vibratory response and the design of a minimum vi...
Aerodynamic performance aspects of rotor blade design are presented. Design considerations, aerodyna...
The purpose of the research is to study the integration of structural, dynamic, and aerodynamic cons...
Described is a formal optimization procedure for helicopter rotor blade design which minimizes hover...
The problem of structural optimization of helicopter rotor blades with integrated dynamic and aerody...
Summarized here is the first six years of research into the integration of structural, dynamic, and ...