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一种拓扑优化方法在机翼可变后缘中的研究 被引量:4

The Study of a Topological Optimization Method on the Adaptive Wing′s Trailing Edge
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摘要 实现机翼在不同的飞行状态下的最优气动外形是自适应机翼的一项关键技术。针对传统铰链机构会使机翼表面产生不连续变化从而导致气流提早分离的问题,具有连续平滑变形和轻量化特点的柔性机构受到重视。根据机翼后缘在不同飞行状态下气动外形的要求,以目标形状与实际形状的距离为最小优化目标,对柔性机构进行了拓扑优化。在优化方法上,传统的拓扑优化方法因参数化对象为结构微元,不可避免的存在棋盘化等现象,本文中采用的拓扑优化方法以载荷路径为参数化对象,同时在约束中引入连接性要求,有效的避免了优化结果物理不可实现的情况。结合实例,运用Isight联合Patran、Nastran进行多学科仿真分析。结果表明:该柔性机构能够实现预期的形状变化。 Making aircraft wing variation under different ilying speeds is a key technology ot variable camber adaptive wing. But traditional hinged mechanism makes wing surface have discontinuous changes, then leading to earlier airflow separation. To solve the problem, compliant mechanism attracts much attention nowadays on account of its characteristics at the continuous smooth deformation and the lightweight. According to the trailing's deformation requirements under different flight conditions, with the least distance between actual shape and desired shape as the target, and a load-path-based method is used to make topological optimization in the compliant mechanism. Different from traditional parametric method taking micro structure as parametric object, the method assigns binary pa- rameter to load path, considering the connectivity in the meantime, the optimization result can avoid the hardly achieved problem, such as checkerboard. Combined with examples, using Isight,Patran and Nastran make the simulation analysis, results show that compliant mechanism achieves the deformation requirements.
作者 王婷 王帮峰 芦吉云 周春华
机构地区 南京航空航天大学航空宇航学院
出处 《机械科学与技术》 CSCD 北大核心 2011年第10期1660-1663,共4页 Mechanical Science and Technology for Aerospace Engineering
基金 国家自然科学基金项目(10772081 引进人才基金YAH10013) 国家自然科学基金项目(51075207)资助
关键词 自适应机翼 柔性机构 拓扑优化 载荷路径法 adaptive wing compliant mechanism topological optimization load-path-based topological optimization
分类号 TH112 [机械工程—机械设计及理论]
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参考文献9

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二级参考文献24

共引文献17

同被引文献34

  • 1黄杰,葛文杰,杨方.实现机翼前缘形状连续变化柔性机构的拓扑优化[J].航空学报,2007,28(4):988-992. 被引量:34
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  • 7DI-MATTEO N, GUO S, AHMED S, et al. Design and analysis of a morphing flap structure for high lift wing :Cff/51th AIAA/ASME/ASCE/AHS/-ASC Structures, Structural Dynamics, and Material Conference. Reston: AIAA, 2010: 4-12. 被引量:1
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机械科学与技术
2011年 第10期

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