Nonlinear Static Aeroelasticity of High Aspect Ratio Wing Aircraft by FEM and Multibody Methods

机译：高长宽比飞机机翼的非线性静气动弹性的有限元和多体方法

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Two procedures for the nonlinear static aeroelastic analysis of high aspect ratio wing aircraft subject to geometric nonlinearities are developed. The two approaches are based on the nonlinear Finite Element Method and on multibody dynamics and employ a linear aerodynamic formulation, respectively Doublet Lattice Method and strip theory. Static aeroelastic results in terms of wing integrated loads at various trim conditions for a very flexible aircraft testcase are presented and compared to the linear ones. Significant differences are found between a linear and a nonlinear approach and attention is drawn to the importance of the follower force effects of the aerodynamics and of considering large displacements and rotations, identified as the main sources of the discrepancies, for the static flight loads computation and subsequent structural sizing of the wing.

机译：提出了两种在几何非线性条件下对高长宽比机翼飞机进行非线性静态气动弹性分析的程序。两种方法均基于非线性有限元法和多体动力学，并采用线性空气动力学公式，分别是Doublet Lattice方法和条形理论。给出了非常灵活的飞机测试用例在各种配平条件下机翼综合载荷方面的静态气动弹性结果，并将其与线性试验结果进行了比较。在线性方法和非线性方法之间发现了显着差异，并引起了人们的注意：空气动力学的从动力效应的重要性以及考虑到较大的位移和旋转，这被认为是差异的主要来源，用于静态飞行载荷计算和机翼的后续结构尺寸。

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《15th Dynamics specialists conference 2016》|2016年|367-388|共22页
会议地点 San Diego CA(US)
作者
Michele Castellani; Jonathan E. Cooper; Yves Lemmens;
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作者单位

Department of Aerospace Engineering, University of Bristol, Bristol, UK;

Royal Academy of Engineering Airbus Sir George White of Aerospace Engineering, Department of Aerospace Engineering, University of Bristol, Bristol, UK;

Aerospace Centre of Competence, Siemens PLM Belgium, Leuven, Belgium;

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专利

1. Nonlinear Static Aeroelasticity of High-Aspect-Ratio-Wing Aircraft by Finite Element and Multibody Methods [J] . Castellani Michele, Cooper Jonathan E., Lemmens Yves Journal of Aircraft . 2017,第2期

机译：高长宽比飞机非线性静气动弹性的有限元和多体方法
2. Aeroelastic Stability Analysis of Aircraft Wings with High Aspect Ratios by Transfer Function Method [J] . Jing Bo Duan, Zhong Yuan Zhang International journal of structural stability and dynamics . 2018,第12期

机译：通过转移函数法具有高宽高比的飞机翼的空气弹性稳定性分析
3. Static Aeroelastic Analysis of Composite Wings with a Large Aspect Ratio Based on the CFD/CSD Method [J] . Sheng-Jun Qiao, Jin Jiao, Ying-Ge Ni, Journal of Aeronautics Astronautics and Aviation . 2021,第3期

机译：基于CFD / CSD法的大宽高比复合翼静态空气弹性分析
4. Nonlinear Static Aeroelasticity of High Aspect Ratio Wing Aircraft by FEM and Multibody Methods [C] . Michele Castellani, Jonathan E. Cooper, Yves Lemmens Dynamics specialists conference . 2016

机译：高纵横比翼飞机的非线性静态空气弹性与FEM和多体方法
5. Aeroelastic modeling and flutter control in aircraft with low aspect ratio composite wings. [D] . Morris, Russell Alan. 1996

机译：低长宽比复合材料机翼的航空弹性建模和颤振控制。
6. LPV Modeling of a Flexible Wing Aircraft Using Modal Alignment and Adaptive Gridding Methods [O] . Ali Khudhair Al-Jiboory, Guoming Zhu, Sean Shan-Min Swei, -1

机译：使用模态对准和自适应网格方法对柔性翼飞机进行LPV建模
7. Nonlinear Static Aeroelasticity of High Aspect Ratio Wing Aircraft by FEM and Multibody Methods [O] . Castellani Michele, Cooper Jonathan E, Lemmens Yves 2017

机译：高长宽比飞机机翼的非线性静气动弹性的有限元和多体方法
8. Effects of wing warp on the lift, drag, and static longitudinal stability characteristics of an aircraft configuration having an arrow wing of aspect ratio 1.86 at Mach numbers from 1.1 to 1.7 [R] . Gillespie, Warren, Jr 1957

机译：机翼翘曲对飞机配置的升力，阻力和静态纵向稳定性特性的影响，其纵横比为1.86，马赫数为1.1至1.7

Nonlinear Static Aeroelasticity of High Aspect Ratio Wing Aircraft by FEM and Multibody Methods

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