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基于CFD/CSD耦合含间隙三维全动舵面气动弹性研究
Authors
杨国伟
郑冠男
黄杰
黄程德
Publication date
15 February 2018
Publisher
Abstract
发展了一种考虑间隙非线性的三维计算流体力学/计算结构力学(CFD/CSD)耦合气动弹性算法。结构分析采用虚拟质量法,即把含间隙的非线性系统划分为三个线性子系统,采用虚拟质量模态作为统一的坐标架去表示各线性子系统。结果表明,虚拟质量法计算的线性子系统模态和动力学响应均与有限元直接计算结果一致。结构运动方程积分采用自适应时间步长法,即当线性子系统发生切换时,通过时间步长的自适应使得切换点可以准确捕捉。切换点和自适应时间步长的搜索采用二分法,计算表明二分法能有效地捕捉切换点并保证了数值稳定性。在此基础上与非定常CFD技术结合,在跨音速条件下对三维全动舵面开展气动弹性响应研究。计算表明结构在低于和高于线性颤振速度下均会形成极限环振荡。由于间隙非线性的影响,跨音速极限环的临界速度比线性颤振的跨音速凹坑下降了20%
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Institute Of Mechanics,Chinese Academy of Sciences
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Last time updated on 09/01/2019