Micro - electro - mechanical systems technology and components 微机电元件及系统
The buckling analysis of functionally gradient thin elastic plate bonded piezoelectric patches 压电元件驱动的功能梯度弹性薄板的屈曲
The dynamic model of the section - varying intelligent piezoelectric beams with surface - bonded piezoelectric element is developed and the natural frequencies are analyzed 建立变截面智能压电梁的动态模型,分析表面粘贴压电元件的均质梁的固有频率。
To discretely distributed sensor / actuator units , on the premise of stable control , different localization of them would lead to different effect of vibration control 对于离散分布的压电元件来讲,在控制器稳定的前提下,不同位置的传感作动单元将产生不同的控制效果。
It combines finite element method and the optimal design of piezoelectric elements together , and therefore can be applied to the vibration analysis and design of complex smart structures 改进后的方法将结构数值分析方法与压电元件的优化配置问题相结合,更加具有可操作性。
It is shown that the effects of the stiffness and inertia of the piezoelectric element that lead to higher first natural frequency on the natural frequencies of the beam are significant , and that of the elastic modulus of the bonding layer is small 研究表明,压电元件的刚度和惯量对梁的频率影响很大,变截面智能压电梁的一阶固有频率总是高于等截面梁的固有频率。
This study adopts active detection technique based on lamb wave to monitor damage in composite materials . pzt ceramics with the diameter of 8mm are bonded on the surface of fiberglass - reinforced composite material acting as both actuators and sensors to generate and collect lamb waves . the waves emitted interact with discontinuities and experience a change in their propagation characteristics when damage is generated 本文采用lamb波主动监测技术,利用粘贴在复合材料板表面的压电元件,通过选择恰当的激励信号,激励出可进行lamb波分析的主动监测信号,进而对监测信号进行分析及模式处理,初步实现了二维结构的损伤定位。
Then , it deals with the theory of the finite element , experimental modal analysis and hilbert huang transform , which forms the theoretical groundwork of the following experimental investigation aiming at analyzing the effect of the transducer debonging on the dynamic response of composite laminated cantilever beam 再次,采用压电元件做传感器的复合材料悬臂梁结构为试验对象,利用模态分析、 hht变换的方法,对压电元件与复合材料之间的脱胶损伤对结构动态特性的影响进行试验研究。
Piezoelectric elements can be used as sensors and induced strain actuators in active vibration control systems . since the positioning of piezoelectric elements can affect control performance greatly , it has to be carefully determined , in this dissertation , detailed theoretical analysis and brief experimental study is made on the optimal positioning of piezoelectric elements for active vibration control applications 在智能结构振动主动控制系统中,压电元件可以分别作为传感器和作动器,其在结构中的布置方式对振动控制性能影响很大,是振动主动控制系统设计的重要问题。