Researchers and engineers design modern aircraft wings to reach high levels of efficiency with the main outcome of weight saving and airplane lift-to-drag ratio increasing. Future commercial aircraft need to be mission-adaptive to improve their operational efficiency. Twistable trailing edge could be used to improve aircraft performances during climb and off-design cruise conditions in response to variations in speed, altitude, air temperature, and other flight parameters. Indeed, “continuous” span-wise twist of the wing trailing edge could provide significant reduction of the wing root bending moment through redistribution of the aerodynamic load leading to an increase of the payload/structural weight ratio. Within the framework of the Cle...
Variation of trailing edge camber proved to be one of the easiest and most effective ways to modify ...
Aircraft winglets are well-established devices that improve aircraft fuel efficiency by enabling a h...
In the framework of Clean Sky 2 Airgreen 2 (REG-IADP) European research project, a novel multifuncti...
Researchers and engineers design modern aircraft wings to reach high levels of efficiency with the m...
Modern transport aircraft wings have reached near-peak levels of energy-efficiency and there is stil...
Aircraft wings are usually optimized for a specific design point. However, since they operate in a w...
Shape control of adaptive wings has the potential to improve aircraft aerodynamic performance during...
Several flight regimes occurring during a typical aircraft mission make it impossible to define a un...
Aircraft wings are usually optimized for a specific design point. However, since they operate in a w...
Future aircraft wing technology is rapidly moving toward flexible and morphing wing concepts capable...
The application of morphing structures in conventional aircraft is a method to improve aircraft perf...
Modern aircraft rely on mechanical actuators and hydraulic systems to move flaps and slats that allo...
Variation of trailing edge camber proved to be one of the easiest and most effective ways to modify ...
Aircraft winglets are well-established devices that improve aircraft fuel efficiency by enabling a h...
In the framework of Clean Sky 2 Airgreen 2 (REG-IADP) European research project, a novel multifuncti...
Researchers and engineers design modern aircraft wings to reach high levels of efficiency with the m...
Modern transport aircraft wings have reached near-peak levels of energy-efficiency and there is stil...
Aircraft wings are usually optimized for a specific design point. However, since they operate in a w...
Shape control of adaptive wings has the potential to improve aircraft aerodynamic performance during...
Several flight regimes occurring during a typical aircraft mission make it impossible to define a un...
Aircraft wings are usually optimized for a specific design point. However, since they operate in a w...
Future aircraft wing technology is rapidly moving toward flexible and morphing wing concepts capable...
The application of morphing structures in conventional aircraft is a method to improve aircraft perf...
Modern aircraft rely on mechanical actuators and hydraulic systems to move flaps and slats that allo...
Variation of trailing edge camber proved to be one of the easiest and most effective ways to modify ...
Aircraft winglets are well-established devices that improve aircraft fuel efficiency by enabling a h...
In the framework of Clean Sky 2 Airgreen 2 (REG-IADP) European research project, a novel multifuncti...