Steven R. Day scite author profile

Steven R. Day

2Publications

37Citation Statements Received

46Citation Statements Given

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Virginia Tech

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A novel unmanned aircraft with solid-state control surfaces: Analysis and flight demonstration

Bilgen

Butt

Day

et al. 2012

Journal of Intelligent Material Systems and Structures

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This article presents a completely servo-less, piezoelectric controlled, wind tunnel and flight tested, remotely piloted aircraft that has been developed by the 2010 Virginia Tech Wing Morphing Design Team (a senior design project between the Departments of Mechanical Engineering and Aerospace and Ocean Engineering). A type of piezocomposite actuator, the Macro-Fiber Composite, is used for changing the camber of all control surfaces on the aircraft. The aircraft is analyzed theoretically for its aerodynamic characteristics to aid the design of the piezoelectric control surfaces. A vortex lattice analysis complemented the database of aerodynamic derivatives used to analyze control response. Steady-state roll rates were measured in a wind tunnel and were compared to a similar aircraft with servomotor actuated control surfaces. The theoretical analysis and wind tunnel testing demonstrated the stability and control authority of the concept, culminating in the first flight of the completely Macro-Fiber Composite controlled aircraft on 29 April 2010. An electric motor-driven propulsion system is used to generate thrust, and all systems are powered with a single lithium polymer battery. This vehicle became the first completely Macro-Fiber Composite controlled, flight tested aircraft. It is also known to be the first fully solid-state piezoelectric material controlled, nontethered, flight tested fixed-wing aircraft.

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A Novel Unmanned Aircraft with Solid-State Control Surfaces: Analysis and Flight Demonstration

Bilgen

Butt

Day

et al. 2011

View full text Add to dashboard Cite

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Steven R. Day

A novel unmanned aircraft with solid-state control surfaces: Analysis and flight demonstration

A Novel Unmanned Aircraft with Solid-State Control Surfaces: Analysis and Flight Demonstration

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