智能材料与结构

智能材料与结构具有四种主要特性，即敏感特性、传输特性、智能特性和自适应特性。

Smart materials and structures are characteristic of four main features including sensing , information converting , automated response and self adaptation .

随着压电智能材料与结构的发展，压电驱动器在气动弹性控制领域占据重要地位。

Along with the development of smart materials and structures , using piezoelectric actuators to control the aeroelastic performances in an aircraft is becoming an important research subject .

利用多模光纤缠绕钢绳式传感阵列网络，对智能材料与结构的受力，应变等状态参量进行监测和估计，并采用光时域反射（OTDR）技术实时处理并行分布式传感信号，给出了识别结果。

A sensor array made of multimode optical fibers twisting steel strands is presented . It can be used to detect many state parameters such as load , strain of intelligent material and structure . OTDR technology is applied to process real-time parallel and distributing sensing signals .

智能材料与结构在航空领域的研究进展

Advances in Research on Intelligent Materials and Structures in Aviation Field

人工神经网络在光纤智能材料与结构损伤估计中的应用研究

Neural Network Applications in Damage Assessment of Optical Fiber Smart Material and Structure

智能材料与结构中的光纤传感阵列及其神经网络处理

Optical Fiber Sensor Array in Smart Material and Structure and its Neural Network Processing

该项研究也是智能材料与结构研究的主要方向之一。

The study is also one of the important fields in smart materials and systems .

智能材料与结构是由世界发达国家在80年代发展起来的一项高新技术。

Mart materials and structures are the high technology developed by advanced countries in the 80 's.

智能材料与结构在汽车行业有着重要的潜在应用。

The smart material and structure has got the important and latent application in the automotive industry .

本文对智能材料与结构在汽车业的应用进行了阐述。

In this paper , the application of smart material and structure in the automotive industry is summarized .

智能材料与结构能够实用的基础是智能元件与基体具有良好的相容性。

Good compatibility between intelligent elements and matrix is the basis that intelligent material and structures could be realized .

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 .

智能材料与结构是一个具有感知、驱动和控制等功能的智能化的材料系统。

The smart material and structure is an intellectualized material system that has several basic functuions such as sensing , actuating , controlling and so on .

结构健康监测是设备状态监测和故障诊断的基础，而智能材料与结构的应用是进行结构健康监测的重点。

Structure Health Monitoring is the base of equipment status monitoring and failure diagnosing . Application of smart materials and structure is the main point of Structure Health Monitoring .

应变和温度的传感技术研究在智能材料与结构领域以及结构健康监测领域中占据着十分重要的位置。

The study of the strain and temperature sensing technology is the most important part of the fields of smart material and structure and health monitoring of large civil infrastructure .

结构健康监测是当前学术界研究的一个热点问题，也是智能材料与结构研究领域的一个重要研究方向。复合材料损伤检测技术则是结构健康监测中的一个重要研究内容。

Structural health monitoring system is an important research direction in the hot area of smart material and structures and Composite damage detection is an important research content of structural health monitoring .

智能材料与结构是一门交叉学科，它的发展不仅是材料学科本身的需要，而且可以带动许多相关学科的发展，也是国民经济建设发展的需要。

Smart materials and structures is a cross-discipline . Its development is not only the demands of material science , but also the development requirements of other related disciplines and national economy .

本文在文献调研的基础上，简介了状态变量法在层合结构分析巾的应用、压电材料的研究现状和智能材料与结构在土木工程中的应用；

Applications of the state vector method into the analysis of lamina , the current research state of piezoelectric materials and smart materials for civil engineering applications are briefly reviewed based upon literature search .

结构健康监测是智能材料与结构研究领域的一个重要研究方向，而小波分析被认为是提取材料结构损伤特征的重要方法。

Structural health monitoring system is an important research direction in the hot areas of smart material and structure and wavelet analysis method is demonstrated to be a promising method to extract the features of structural damage .

近年来在智能材料与结构领域取得的新进展，使得利用集成在结构中的先进驱动/传感元件网络，在线获取与结构状态相关的信息，识别结构的安全状况成为可能。

Recent developments in the area of smart materials and structures have made it possible to obtain the state of structure and to identify the structural safety status online with advanced actuator / sensor network integrated in the structure .

大力研究与发展智能材料与结构，可为汽车向轻型化、节能化、自动化、智能化和舒适化方向发展提供强有力的材料支撑，发展前景广阔。

Through researching and developing the smart material and structure strongly , the powerful material support can be provided for the development of the light , economical , automatic , smart and comfortable automobile , and its development foreground is vast .

由于压电复合材料力、电特性的可设计性，能够克服单&压电材料脆性易断的缺点，因此在智能材料与结构中有着广泛的应用前景。

Piezoelectric composite materials ( PCM ) could be widely applied in smart materials and structures , since they posses the ability to tailor their mechanical and electrical properties per required by design the materials and avoid the disadvantage of easy brittleness .

本文介绍了国外智能材料与结构的最新发展和应用，智能结构的组成和制造方法，最后讨论了目前存在的问题和我国开展智能结构发展研究的建议。

Recent devel-opments and applications of smart materials and structures in various countries , compositions and production methods of smart structures are presented in the article . Finally , the problems and suggestions which need to be solved in the future development are also described .

提出了一种新颖的、采用周期性对称与不对称刻纹多模光纤组成的传感阵列网络，可用于智能材料与结构的应力、应变等的状态探测或损伤估计。

Presented in this work is a novel fiberoptic sensor array which is made of symmetric and asymmetric periodically etched multimode optical fibers . It may be applied to detection of structural states such as stress , strain or damage assessment in smart material and structures .

对智能材料与结构、智能材料与结构中的传感技术、光纤光栅传感技术的研究现状和发展趋势进行了回顾和展望，探讨了光纤光栅智能材料与结构的基本概念和构成方式。

The current study situation and development direction of intelligent materials and structures , their sensing technology and fiber optic grating sensing technology were reviewed and forecasted . The basic concepts and forming patterns of the fiber optic grating intelligent materials and structures were explored . 2 .

智能材料工艺与结构中的先进传感器的发展

Advanced Sensors in Smart Technology and Structure of Composite Materials

智能材料工艺与结构系统中的传感器及人机界面在智能材料工艺与智能材料结构中的应用。

The intelligent composite production system , smart material & structure , and the application of sensors and man machine interface in the intelligent material processing and smart material structure are also introduced .

光纤光栅是目前在智能材料系统与结构健康监测研究与应用最为广泛的敏感材料之一，具有分布式绝对测量、抗腐蚀能力强等优点。

Fiber Bragg grating ( FBG ) with advantages of quasi-distribution absolute measurement , high corrosion resistance , etc , has become one of the most popular sensing element for intelligent materials system and structural health monitoring .

智能材料系统与结构的研究是当今材料科学界研究的热点之一，它是控制系统与传统的结构材料或功能材料相结合的产物。

The research on smart material systems and structures ( SMSS ) is one of the research focuses of material science . SMSS is the combination of modern control system and the traditional structural materials and functional materials .

复合材料固化过程智能化技术及智能材料与结构体系

Intelligent Curing Processing Technology of Composite and Smart Material and Structure System