先进飞机机翼承载外挂材料的建模与气动弹性

4th International Symposium on Fluid-Structure Interactions, Aeroelasticity, Flow-Induced Vibration and Noise: Volume III Pub Date : 1997-11-16 DOI:10.1115/imece1997-0169

F. Gern, L. Librescu

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引用次数: 0

摘要

为了研究机翼安装材料对先进飞机机翼气动弹性的影响，建立了机翼综合结构模型。机翼结构被理想化为层压复合板，从而导致剪切变形板梁模型的概念。机翼根部的自由体运动是由机体在俯仰、俯冲和翻滚时的运动引起的。结构模型中包含了翘曲抑制和横向剪切柔度等非经典效应。利用Hamilton变分原理和广义泛函理论，得到了相应的运动方程和相应的边界条件，以便准确地考虑附着体的展向位置和性质。利用扩展伽辽金方法对系统的散度行为和静态气动弹性响应进行了数值预测。

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Modeling and Aeroelasticity of Advanced Aircraft Wings Carrying External Stores

In order to study the effects of wing mounted stores upon the aeroelasticity of advanced aircraft wings, a comprehensive structural model has been developed. The wing structure is idealized as a laminated composite plate thus leading to the concept of a shear deformable plate-beam model. Free body motions at the wing root are induced by the motion of the airframe in pitching, plunging, and rolling. Non-classical effects like warping inhibition and transverse shear flexibility are included in the structural model. The relevant equations of motion as well as the appropriate boundary conditions are obtained via Hamilton’s variational principle and application of generalized function theory in order to exactly consider the spanwise location and properties of the attached stores. Numerical predictions for divergence behavior and static aeroelastic response of the system using extended Galerkin’s Method are supplied.

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4th International Symposium on Fluid-Structure Interactions, Aeroelasticity, Flow-Induced Vibration and Noise: Volume III

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