This paper presents an overview of the preliminary design process and findings aimed at morphing of trailing edge (TE) control surfaces for rotorcraft. A design methodology for a camber morphing control surface is presented, although twist can also be induced by applying differential camber of the morphing section span. The concept investigated relies on utilizing conventional aircraft structures and materials for morphing purposes; thus, in essence, has the potential to fulfil the conflicting requirements of lightweight, flexibility and strength at the same time. Based on this concept, the preliminary design work shows that an active trailing edge camber morphing mechanism can be designed after careful considerations of design and actuatio...
Shape control of adaptive wings has the potential to enhance wing aerodynamic performance during cru...
In order to meet civilian and military design requirements, helicopters must be able to safely compl...
In this study, design and analysis of a new unconventional hybrid trailing edge control surface of a...
The application of morphing structures in conventional aircraft is a method to improve aircraft perf...
This paper presents an overview of the design and validation of a novel passive camber morphing syst...
Modern helicopters are equipped with rotor blades with exposed linkages, swashplates, and mechanical...
The idea of morphing is drawing extensive attention in aerospace technologies. Several different app...
In this article, the design and analysis of a hybrid trailing edge control surface of an unmanned ae...
This paper discusses the development and whirl tower testing of an active translation induced camber...
Shape control of adaptive wings has the potential to improve aircraft aerodynamic performance during...
This study presents the design and analysis of a novel hybrid trailing edge control surface that is ...
The presented study investigates the design and development of an autonomous morphing wing concept d...
In this study, the design and development of an autonomous morphing wing concept were investigated. ...
This study presents the design and analysis of a novel hybrid trailing edge control surface that is ...
Morphing technologies bare a great potential for further improvements of aircraft in terms of aerody...
Shape control of adaptive wings has the potential to enhance wing aerodynamic performance during cru...
In order to meet civilian and military design requirements, helicopters must be able to safely compl...
In this study, design and analysis of a new unconventional hybrid trailing edge control surface of a...
The application of morphing structures in conventional aircraft is a method to improve aircraft perf...
This paper presents an overview of the design and validation of a novel passive camber morphing syst...
Modern helicopters are equipped with rotor blades with exposed linkages, swashplates, and mechanical...
The idea of morphing is drawing extensive attention in aerospace technologies. Several different app...
In this article, the design and analysis of a hybrid trailing edge control surface of an unmanned ae...
This paper discusses the development and whirl tower testing of an active translation induced camber...
Shape control of adaptive wings has the potential to improve aircraft aerodynamic performance during...
This study presents the design and analysis of a novel hybrid trailing edge control surface that is ...
The presented study investigates the design and development of an autonomous morphing wing concept d...
In this study, the design and development of an autonomous morphing wing concept were investigated. ...
This study presents the design and analysis of a novel hybrid trailing edge control surface that is ...
Morphing technologies bare a great potential for further improvements of aircraft in terms of aerody...
Shape control of adaptive wings has the potential to enhance wing aerodynamic performance during cru...
In order to meet civilian and military design requirements, helicopters must be able to safely compl...
In this study, design and analysis of a new unconventional hybrid trailing edge control surface of a...