该文提出了一种简单的悬臂板压电智能结构控制策略。
A simple control strategy is presented for a smart cantalever structure with piezoelectricity.
智能结构振动控制是智能结构研究的重点之一。
The active vibration control is one of important division of intelligent structure.
目前,智能结构已经成为了工程振动控制领域的研究热点之一。
Now they have been one of the hotspots in engineering vibration control.
介绍了利用有限元分析软件ANSYS,对压电智能结构的主动振动控制系统进行优化设计的方法。
A method of optimum design on active vibration control system of piezoelectric smart structure using finite element analysis software ANSYS was introduced.
研究了压电智能结构振动控制问题。
The vibration control for piezoelectric smart structure is studied.
智能结构因为具有响应快、自适应、自判断等优点已逐渐成为振动控制领域里的研究热点。
Smart structures are being the focus in the study of vibration control due to its advantages of fast reaction, self-adapting, self-diagnosing and so on.
压电传感器和驱动器直接粘贴在母体材料上,和单片机控制系统一起构成了压电式主动减振智能结构。
Piezoelectric sensors and actuators are adhered to the base material directly, and compose the active vibration control system along with the single chip.
智能结构技术对空间大型柔性结构的振动控制问题具有重要意义。
The technology of smart structures is significant for the vibration control of large flexible space structures.
综述了压电材料在智能结构形状和振动控制中的应用。
This paper summarized the applications of piezoelectric materials on shape control and vibration control of smart structures.
通过对压电智能结构实验进行分析,所得到的实验结果验证了控制律算法和驱动器位置优化配置方法的正确性和优越性。
The experiment of intelligent structures has been studied, and the new control law and optimal configure rule have been validated through the experiment results.
利用三维智能薄壳单元,研究了柔性薄壳智能结构的动态最优形状控制;
The optimal shape control of flexible intelligent thin shell structure is derived by using the intelligent thin shell element presented.
智能结构由于具有响应快、自适应、自诊断、自修复之优点逐渐成为振动控制领域里研究的热点。
Intelligent structures are being the focus in the study of vibration control because of it's advantages of fast reaction self-adapting self-diagnosing and self-recovery.
随机压电智能结构振动主动控制是目前结构动力设计与控制研究领域中的一个重要的崭新课题。
Active vibration control for piezoelectric intelligent structures is an important task in the field of engineering structural research.
如何正确有效地计算其力学特性,是复合材料层板形状控制以及设计和应用形状记忆合金复合材料智能结构的基础。
How to calculate the mechanics behavior correctly is the base of shape control and design and applying of shape memory alloy composite material structures. The nonlinea…
研究表明,压电结构中,压电材料的压电效应是智能结构消耗能量实现主动控制的最根本原因。
The study demonstrates piezoelectricity of the piezoelectric materials plays the important role in controlling the vibration of the smart structures.
智能结构是将传感器、驱动器和微处理控制系统与结构基体材料相融合,形成具有识别、分析、判断、动作等功能的一种结构。
Intelligent structure, an integration of sensors, actuators, microprocessors, and structural base materials together, is capable of recognizing, estimating and actuating.
智能结构是将传感器、驱动器和微处理控制系统与结构基体材料相融合,形成具有识别、分析、判断、动作等功能的一种结构。
Intelligent structure, an integration of sensors, actuators, microprocessors, and structural base materials together, is capable of recognizing, estimating and actuating.
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