岩石变形光纤光栅传感检测的应变传递分析

岩石变形过程可以通过光纤光栅的表面粘贴法进行检测。建立了考虑表面凹槽时的应变传递模型,经过力学分析得出了应变传递方程及传递系数的表达式;在MTS伺服机上进行了单轴压缩实验,借助光纤光栅对加载过程进行了测试。结果表明,传递方程与粘贴层厚度均匀分布时的方程形式相同,只是特征值k不同;换算后光栅的轴向应变与MTS位移计吻合很好,相对误差仅为3.2%;环向测试优于MTS的环向应变计,而两种方法都明显地优于应变片。实验验证了所建模型的正确性。经应变传递换算后,通过光纤光栅可以实现岩石变形过程中与MTS精度相当的高精确测试。     

光纤光栅传感器对钢筋混凝土内部应变的测量及温度效应的研究

本文应用光纤光栅传感器实现了对钢筋混凝土试件内部应变的测量．试验不仅就应用光纤光栅进行混凝土结构内部应变测量的技术、工艺进行研究，还通过设计温度控制试验，考察了光纤光栅传感器的温度补偿问题，以及横向应变对测量结果的影响．     

基于光纤光栅的分布式POS柔性基线测量方法

分布式位置姿态测量系统(POS)依靠传递对准来精确测量多任务成像传感器的多节点运动信息,然而,节点间的柔性基线精度限制了传递对准精度。针对此问题,提出了一种基于光纤光栅的分布式POS柔性基线测量方法。首先研究了光纤光栅形变测量方法,利用光纤光栅传感器获取变形位移和变形角度;然后利用光纤光栅的形变测量信息修正传递对准量测方程,重新建立传递对准模型;最后搭建了柔性基线测试实验平台,进行实验测试。实验结果表明,所提出的方法可以精确测量多节点之间的柔性基线,同时也可为分布式POS的应用提供强有力的支持。     

基于Bragg光纤光栅的位移-应变传感器分析

光纤光栅传感器技术应用于力学测试是国内外正在发展的一门新技术.本文基于光纤光栅传感的基本原理,介绍了一种用于位移测量的应变传感器,测得应变与位移变化具有良好的线性特点,重复性好;对该传感器的测量过程进行了有限元模拟,并与实验值进行了比较.     

光纤光栅传感器应用于典型复合材料梁内部应变测试的试验研究

利用埋设在复合材料内部的未封装光纤光栅(Fiber Bragg Grating,FBG)传感器监测环氧树脂梁和玻璃纤维层压梁在三点弯曲过程中的应变变化,并与理论值进行对比,结果表明:两者所得的应变变化趋势吻合良好.光纤光栅传感器测量典型复合材料梁内部应变的方法不仅适用于各向同性的环氧树脂复合材料,而且适用于各向异性的玻璃纤维复合材料.     

基于光纤光栅传感器的玻璃纤维复合材料层间应变测试的实验分析

通过对内埋未封装光纤光栅传感器(Fiber Bragg Grating,FBG)的玻璃纤维增强复合材料进行力学实验分析,得到不同试件层间的应变曲线与试件断面的微观截面图.探讨了玻璃纤维复合材料固化过程中温度和压力对FBG传感器的传感性能的影响,深入分析了FBG传感器与玻璃纤维复合材料的融合度以及弯曲实验中FBG传感器检测精度.在试件三点弯曲实验中,与传统电测方法不同,应用新型未封装FBG传感器进行复合材料的层间应变测量,得到的层间应变与载荷数据,拟合直线的线性相关系数均在0.99以上,并且传感器在监测不同试件同一层的层间应变的相对误差不超过5％.为应用FBG传感器检测实际的复合材料构件内部应变以及形成FBG传感网络损伤监测系统提供了实验基础.     

基于光纤智能夹层传感结构的应力测量研究

制作了一种模块化的光纤传感夹层,对夹层内的光纤传感器的应力特性进行了实验研究。分析了应变对传感系数的影响,对埋入到光纤智能夹层中的两种光纤传感器的输出特性进行了比较。实验结果表明:光纤Bragg光栅传感器的波长漂移与应变之间具有理想的线性关系,但应变灵敏度由1.2pm/με降至1.15pm/με;由于制作工艺的局限,对于非本征F-P光纤传感器,当应变达到350με后,应变与载荷具有较好的线性响应。与非本征F-P光纤传感器相比,光纤Bragg光栅传感器是光纤智能夹层首选的应变传感器。将埋入了Bragg光栅传感器的智能夹层粘贴于某型飞机的翼-身连接构件内部进行监测,实验结果为光纤智能夹层应用于复合材料结构的应变监测提供了参考。     

氩弧点焊薄片应变传感器性能实验研究

对氩弧点焊薄片应变传感器传递性能和疲劳性能进行了试验研究,试验结果表明氩 弧点焊薄片应变传感器具有稳定传递性能和可靠的疲劳性能,可以应用于实际工程应变测 量.     

高温光栅应变法的研究

光栅应变法以高频反射式正交衍射光栅为传感器，通过考查光栅衍射图案的变化来确定试件被测点的全部面内应变分量的刚体转角。这种方法具有无机械接触、不需暗室、防震要求低、灵敏度可调以及易于实现数据采集与处理过程自动化等优点。文中对光栅应变法进行了新的分析，推导出物理意义明确、精度更高的计算公式，并首次将光栅应变法成功地应用于高温下的应变测量。     

埋光纤光栅传感器智能土木结构应变监测

采取与土木工程施工特点相适应的操作工艺与保护方法，将光纤Bragg光栅传感器埋入钢筋混凝土结构中，分别在实验室和实际工程施工现场对混凝土内部的应变进行了测量。实验中光纤Bragg光栅传感性能良好，能够监测混凝土内部应变状态，显示出成活率高、绝对值测量、寿命长等优势，为建立基于光纤传感器的结构健康监测系统奠定了基础。     

A fiber optic sensor for transverse strain measurement

A fiber optic sensor capable of measuring two independent components of transverse strain is described. The sensor consists of a single Bragg grating written into high-birefringent, polarization-maintaining optical fiber. When light from a broadband source is used to illuminate the sensor, the spectra of light reflected from the Bragg grating contain two peaks corresponding to the two orthogonal polarization modes of the fiber. Two independent components of transverse strain in the core of the fiber can be computed from the changes in wavelength of the two peaks if axial strain and temperature changes in the fiber are zero or known. Experiments were performed to determine the response of the sensor by loading an uncoated sensor in diametral compression over a range of fiber orientations relative to the loading. The results of these experiments were used with a finite element model to determine a calibration matrix relating the transverse strain in the sensor to the wavelength shifts of the Bragg peaks. The performance of the sensor was then verified by measuring the transverse strains produced by loading the fiber in a V-groove fixture.     

绞合式光纤应变传感器

研究了一种可用于工程结构状态监测的本征型强度调制光纤应变传感器,由两根以上多模光纤相互绞合形成,分析了该传感器的应变传感原理,得到其既能测量拉应变,又有测定压应变的结论,传感器对应变的响应具有良好的线性和重复性、灵敏度高、无迟滞现象,对钢筋拉应变、混凝土压就矿业的实验结果与理论分析一致,表明该传感器是适合土木工程测量、结构状态监测等方面的较为理想的光纤传感器。     

一种基于应变模态分析的舰船分布式挠曲姿态测量方法

针对舰船所处的恶劣环境，以及舰船导航和武器系统对姿态测量精度日益提高的要求，根据应变模态分析理论，建立了应变信息与姿态信息的变换关系，并提出了利用光纤Bragg光栅(FBG)传感器测量甲板的应变，求取由挠曲变形引起的姿态信息误差的方法。通过对简易模型的实验，验证了这种方法是有效的并且具有较高的精度。     

Embedded optical fiber Bragg grating sensor in a nonuniform strain field: Measurements and simulations

This paper investigates the use of embedded optical fiber Bragg gratings to measure strain near a stress concentration within a solid structure. Due to the nature of a stress concentration (i.e., the strong nonuniformity of the strain field), the assumption that the grating spectrum in reflection remains a single peak with a constant bandwidth is not valid. Compact tension specimens including a controlled notch shape are fabricated, and optical fiber Bragg gratings with different gage lengths are embedded near the notch tip. The form of the spectra in transmission varies between gages that are at different distances from the notch tip under given loading conditions. This variation is shown to be due to the difference in the distribution of strain along the gage length. By using the strain field measured using electronic speckle pattern interferometry on the specimen surface and a discretized model of the grating, the spectra in transmission are then calculated analytically. For a known strain distribution, it is then shown that one can determine the magnitude of the applied force on the specimen. Thus, by considering the nonuniformity of the strain field, the optical fiber Bragg gage functions well as an embedded strain gage near the stress concentration.     

Fiber Bragg Grating Based Stress Measurement for Films Deposited onto Cylindrical Surfaces

Shape of a substrate directly influences the residual stress in thin film coatings. In this study, a method involving Fiber Bragg Grating (FBG) was used to measure residual stress in a film deposited on a cylindrical surface. An FBG has a cylindrical surface and its Bragg wavelength shifts continuously when a film is being deposited on the sensor’s surface. Herein, we calculated the residual strain in the film from the wavelength shift of the Bragg grating by studying the transfer of the residual strain of the cylindrical film to the core of the optical fiber substrate during deposition. By employing the energy method, we derived expressions that related the strain in the core of fiber to the residual strain in single layer films, bilayer films, and multilayer cylindrical films. As an example, we demonstrated a detailed process for testing the stress and the strain distribution across a nickel (Ni) film electrodeposited on the surface of a nickel-phosphorus (Ni-P) alloy-coated optical fiber. The results indicated that the measured strain repeatability was less than 500 μ? and the strain sensitivity was more than ?2 × 10^?3 pm/μ?, when the thickness of the film was less than 5 μm. The negative sign on the strain sensitivity indicated that the tensile strain in the film produced compressive strain in the core of the optical fiber. The FBG sensor system has high test speed, and integrates measurement and signal transmission. This method provides an effective and convenient approach to measure stress in a film deposited on a cylindrical surface.     

Measuring Strains through the Thickness of a Composite Structural Specimen Subjected to Bending

This study concerns the central reinforced zone of a composite structural specimen. In order to estimate the strain distribution during a series of three and four-point bending tests, several optical fiber Bragg grating sensors have been embedded in various levels of the ply stack. Simultaneously, surface strain field measurements by 3-D digital image correlation are undertaken. Both techniques show a general linear distribution of longitudinal strains through the thickness of the thick zone but values are slightly different. A numerical model is developed and a test-calculation dialogue is carried out. The complementary information given by the two optical techniques for in-core and surface measurements reveals the importance of considering structural and edge effects.     

Temperature and strain measurement by combining ILFE and bragg grating optical fiber sensors

This paper presents two optical fiber sensor configurations that are capable of simultaneously measuring temperature and strain. These sensor configurations use serial and parallel combinations of in-line fiber etalon (ILFE) and in-fiber Bragg grating sensors, along with wavelength division multiplexing concepts. The results obtained while simultaneously varying the temperature over 130°C and strain field over 1500 με showed favorable agreement with thermistors and resistance strain gages.     

基于双光纤光栅的冰压力传感器研究

冰压力是高纬度地区结构的重要荷载,然而传统的基于电阻应变计开发的冰压力传感装置在稳定性与耐久性上遇到难以跨越的难题。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。本文基于双光纤光栅应变测量原理,考虑冰压力测试装置的环境条件,设计开发出冰压力传感装置,详细推导和试验验证了该装置的传感特性,并将试验与理论结果进行了对比。研究结果表明该装置具有温度自补偿、测量值与荷载作用点无关、线性度和重复性好、精度较高等优点,具有良好的应用前景。     

Distributed strain sensing using frequency-modulated continuous-wave reflectometric optical technique

This paper presents an analysis describing the feasibility of a distributed optical fiber strain sensor whose principle of operation is based on the frequency-modulated continuous-wave (FMCW) reflectometry technique. The system consists of a frequency-swept laser diode and an unbalanced two-beam interferometer. In this system, the test arm comprises a number of single-mode fibers, which act as the sensing fibers, with a mirror at the far end and mechanical splices as the connectors, as well as the reflectors. Theoretical analysis shows that the measuring resolution of the strain is inversely proportional to the length of the sensing fiber. The strain variation of the sensing fiber is measured by demodulating the phase shift of the beat signal using a heterodyne signal processing system, and therefore the requirement of a high precision temperature control of the light source can be eliminated in this way. The comparison between the theoretical and experimental values of the strain resolution showed excellent agreement.