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Aeroelasticity of Axially Loaded Aerodynamic Structures for Truss-Braced Wing Aircraft.
| 题名: | Aeroelasticity of Axially Loaded Aerodynamic Structures for Truss-Braced Wing Aircraft. |
| 作者: | Nguyen, N.; Ting, E.; Lebofsky, S. |
| 关键词: | Aircraft structures, Aeroelasticity, Aerodynamic loads, Axial loads, Wing loading, Trusses, Flutter analysis, Bending, Torsion, Nonlinearity, Finite element method, Partial differential equations, Angle of attack |
| 摘要: | This paper presents an aeroelastic finite-element formulation for axially loaded aerodynamic structures. The presence of axial loading causes the bending and torsional sitffnesses to change. For aircraft with axially loaded structures such as the truss-braced wing aircraft, the aeroelastic behaviors of such structures are nonlinear and depend on the aerodynamic loading exerted on these structures. Under axial strain, a tensile force is created which can influence the stiffness of the overall aircraft structure. This tension stiffening is a geometric nonlinear effect that needs to be captured in aeroelastic analyses to better understand the behaviors of these types of aircraft structures. A frequency analysis of a rotating blade structure is performed to demonstrate the analytical method. A flutter analysis of a truss-braced wing aircraft is performed to analyze the effect of geometric nonlinear effect of tension stiffening on the flutter speed. The results show that the geometric nonlinear tension stiffening effect can have a significant impact on the flutter speed prediction. In general, increased wing loading results in an increase in the flutter speed. The study illustrates the importance of accounting for the geometric nonlinear tension stiffening effect in analyzing the truss-braced wing aircraft. |
| 总页数: | Nguyen, N.; Ting, E.; Lebofsky, S. |
| 报告类型: | 科技报告 |
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