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出 处:《振动与冲击》2010年第12期148-152,共5页Journal of Vibration and Shock
基 金:国家自然科学基金(50375122);高等学校学科创新引智计划资助项目(B07050)
摘 要:将结构拓扑优化引入压电分流振动抑制中,以压电元件的分布面积为设计变量,压电元件产生的电荷最大化为优化目标,对压电元件的拓扑进行了优化以获得最佳抑振效果。针对悬臂梁结构,得到了对不同的结构模态进行抑制时的压电元件最优拓扑构型。建立了带有压电分流阻尼系统的悬臂梁振动控制实验模型,将压电元件拓扑优化后的压电分流阻尼系统应用于悬臂梁多阶弯曲模态的振动响应抑制实验,并对比分析了带最优拓扑和非优拓扑压电元件的悬臂梁压电分流阻尼抑振效果。结果表明,对压电元件进行拓扑优化可以明显提高压电分流阻尼系统的抑振效果。Topology optimization of piezoelectric transducer was proposed to improve vibration damping efficiency of piezoelectric shunt damping system.In the method,the distribution area of PZT transducer bonded on the host structure was defined as design variable to maximize the converted electrical energy in piezoelectric transducer,and the optimal topology of piezoelectric transducer was achieved.The topology optimization of piezoelectric transducer for different modes vibration control of a cantilever beam was conducted.Then the experimental models for different modes vibration control of cantilever beams with optimal topology of PZT transducers were built and piezoelectric damping vibration control tests for different modes of vibration were performed.The comparison of vibration control efficiency between piezoelectric shunt damping systems with and without PZT transducer topology optimization was also presented.The results show that topology optimization of piezoelectric transducer can significantly increase the vibration control efficiency of piezoelectric shunt damping system.
分 类 号:TH113.1[机械工程—机械设计及理论]
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