Research on the Structural Design and Mechanical Properties of T800 Carbon Fiber Composite Materials in Flapping Wings
Ruojun Wang, Zengyan Jiang, Yuan Zhang, Luyao Fan, Weilong Yin

TL;DR
This study explores how T800 carbon fiber composites and different wing materials affect the performance of micro flapping-wing aircraft.
Contribution
The study introduces a novel flapping wing design using T800 carbon fiber composites and evaluates material impacts on performance.
Findings
T800 carbon fiber composites significantly improve wing stiffness and durability.
PET wing film shows best stability and lift performance at high frequencies.
Material choice and carbon fiber distribution greatly influence mechanical properties.
Abstract
Due to its superior maneuverability and concealment, the micro flapping-wing aircraft has great application prospects in both military and civilian fields. However, the development and optimization of lightweight materials have always been the key factors limiting performance enhancement. This paper designs the flapping mechanism of a single-degree-of-freedom miniature flapping wing aircraft. In this study, T800 carbon fiber composite material was used as the frame material. Three typical wing membrane materials, namely polyethylene terephthalate (PET), polyimide (PI), and non-woven kite fabric, were selected for comparative analysis. Three flapping wing configurations with different stiffness were proposed. These wings adopted carbon fiber composite material frames. The wing membrane material is bonded to the frame through a coating. Inspired by bionics, a flapping wing that mimics the…
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Taxonomy
TopicsBiomimetic flight and propulsion mechanisms · Aerospace Engineering and Energy Systems · Icing and De-icing Technologies
