航空学报 > 2011, Vol. 32 Issue (7): 1210-1216   doi: CNKI:11-1929/V.20110126.1718.002

考虑结构动力学与颤振约束的颤振缩比模型优化设计

吴强, 万志强, 杨超   

  1. 北京航空航天大学 航空科学与工程学院, 北京 100191
  • 收稿日期:2010-11-22 修回日期:2010-12-03 出版日期:2011-07-25 发布日期:2011-07-23
  • 作者简介:吴强(1987- ) 男, 硕士研究生。 主要研究方向: 气动弹性。 Tel: 010-82313376 E-mail: wq8742@163.com 万志强(1976- ) 男, 博士, 副教授, 硕士生导师。 主要研究方向: 气动弹性、 结构优化、 微小型飞行器设计。 Tel: 010-82317510 E-mail: wzq@buaa.edu.cn 杨超(1966- ) 男, 博士, 教授, 博士生导师。 主要研究方向: 气动弹性, 气动伺服弹性。 Tel: 010-82317528 E-mail: yangchao@buaa.edu.cn
  • 基金资助:

    国家自然科学基金 (901716006,10902006); 高等学校博士学科点专项科研基金(20091102110015)

Design Optimization of Scaled Flutter Model Considering Structural Dynamics and Flutter Constraints

WU Qiang, WAN Zhiqiang, YANG Chao   

  1. School of Aeronautic Science and Engineering, Beihang University, Beijing 100191, China
  • Received:2010-11-22 Revised:2010-12-03 Online:2011-07-25 Published:2011-07-23

摘要: 由于颤振缩比模型与原模型在承力结构上存在差异,当二者的结构动力学特性相似时,气动弹性可能并不等效。针对该问题,提出了同时考虑结构动力学约束和颤振约束的颤振缩比模型优化设计方法,建立了利用遗传/敏度混合优化算法求解此问题的流程,研究了优化问题中目标函数和约束条件的选取方式,并以机翼颤振缩比模型为算例对方法的有效性进行了验证。研究表明,对于颤振缩比模型的设计,所提出的同时考虑结构动力学约束和颤振约束的优化设计方法,较之单独考虑结构动力学约束的优化方法具有更好的适用性。

关键词: 气动弹性, 缩比模型, 颤振, 结构动力学, 优化设计

Abstract: For the load-carrying structures of original model and scaled flutter are different, their aeroelastic characteristics may not be matched when their structural dynamics are matched. For this problem, a method is presented of designing a scaled flutter model which takes into consideration both structural dynamics and flutter constraints; a process of using the genetic/sensitivity-based hybrid algorithm to solve this problem is built and the method of choosing objective functions and constraint conditions is discussed. With an example of a scaled flutter model design, the validity of this method is verified. This example indicates that the design optimization method considering both structural dynamics and flutter constraints possesses better applicability than the design optimization method considering structural dynamics only.

Key words: aeroelasticity, scaled model, flutter, structural dynamics, design optimization

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