这些轻量级组件用木头和不锈钢材料组合创建了一个高度智能化的结构。
These lightweight components interlock to create a highly intelligent structure using only wood joinery and stainless steel zip ties, in lieu of nails.
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.
简要介绍了自适应机翼的概述和智能材料与结构的功能特点。
This paper introduces in brief the summary of adaptive wing and the function character of smart material and structure.
其中还介绍了失效物理与环境控制、耗散结构、智能材料和环境意识材料。
Failure physics and environment control dissipative structure intelligent material and ECOMATERIALS are also introduced in the meantime.
压电材料(压电陶瓷和压电聚合物)具有很强的力电耦合效应而成为智能结构中应用最为广泛的智能材料。
The piezoelectric materials have strong electromechanical couple ability so that they are mostly used in intelligent structures especially for the problem of vibration control.
本文论述了迄今提出的关于如何重新考虑复合材料设计及其以智能复合材料结构为目标的各种概念和思想。
This paper describes various concepts and ideas so far proposed on how to reconsider the design of composite material and structures for the purpose of aiming at smart composite structures.
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.
电磁弹性材料是一种能够实现机械能、电能和磁能相互转化的复合材料,它在新型的智能材料与结构等众多高新技术领域都显示出良好的应用前景。
Thermal magnetoelectroelasticity is a kind of special composite materials that can achieve transformation among mechanical energy, electric energy, magnetic energy, and heat energy.
综述了压电材料和含有压电材料作为驱动器、传感器以及压电纤维复合材料等不同智能材料系统和结构的性能及应用特征。
The performance and application of intelligent material systems and structures invlved piezoelectric materials as sensors, actuators and piezoelectric fiber composites are reviewed.
复合材料容器结构的在线损伤检测可以通过粘贴在结构表面的压电智能材料和基于振动分析基础上的信号处理来完成。
The in-situ active damage detection of composite structure can be implemented using surface-bonded piezoelectric patches with signal processing based on vibration analysis.
主要介绍了三类交互式包装技术:感觉包装、功能包装和智能包装,并着重从材料、结构和机械三方面对智能包装进行分析研究。
Three main types of Interactive Packaging were introduced, including Sense Packaging, Function Packaging and intelligent Packaging, especially the intelligent materials, structures and machines.
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…
以压电陶瓷为代表压电智能材料具有集传感和驱动一体化的优越特性,适合于结构健康监测领域。
Smart piezoelectric materials such as the piezoelectric ceramic have a superior characteristic of dual functions of actuating and sensing which make it suitable for the SHM technology.
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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