光纤光栅技术与应用专题讲座(三) 第6讲 光纤光栅传感技术在土木工程中的应用

针对利用光纤光栅进行应变、温度等测量已经在土木工程中较为普遍这一现状,首先对光纤光栅传感技术进行应变、温度等测量的基本原理进行了描述,重点讨论了为满足耐久性、安装方便与温度自动补偿等需求光纤光栅传感器的封装技术,最后介绍了光纤光栅传感器在土木工程中实际应用的现状。     

石英/双酚E型氰酸酯复合材料的制备与性能

采用实验方法研究双酚E型氰酸酯树脂的黏度和固化特性,揭示催化剂对双酚E型氰酸酯树脂固化特性的影响规律;采用树脂传递模塑和真空导入模塑工艺制备石英纤维/双酚E型氰酸酯复合材料,并考察其力学性能。结果表明,双酚E型氰酸酯树脂室温至90℃范围内的黏度小于300 m Pa·s,凝胶时间大于10 h,起始固化温度、固化温度和终止固化温度分别为186±5℃,235±5℃和286±5℃;固化特征温度随着催化剂含量的增加而降低,直至催化剂饱和,其饱和范围为0.02%~0.03%,可使双酚E型氰酸酯树脂体系的固化温度降低约60℃,从而避免爆聚,实现液相法成型其复合材料;真空导入模塑工艺制备的石英纤维/双酚E型氰酸酯复合材料的力学性能明显优于树脂传递模塑制备试样。     

增强材料芳纶纤维在减振降噪橡胶制品中的应用

论述了橡胶制品用骨架材料芳纶纤维的发展、结构及其性能,并结合橡胶减振消声制品的发展,阐述了芳纶纤维在该类产品中的潜在应用前景.     

动力调谐陀螺随机速率漂移模型及其分析

应用典型相关分析,主成份分析和多因变量逐步回归分析方法,对陀螺仅随机速率漂移与温度的关系数推进行了分析。文中得出了一些有益的结论,并建立了陀螺仪随机速率漂移与温度相关的数学模型。     

锁相放大器在光纤陀螺信号检测中的应用

讨论了光纤陀螺信号检测的基本原理,分析了锁相放大器参数选择对测试结果的影响。在干涉型去偏光纤陀螺系统中应用锁相放大器进行信号检测,可使系统阈值达到0.1deg/h,零漂达到0.4deg/h.     

Investigation of the mechanical and ballistic properties of hybrid carbon/ aramid woven laminates

High-performance ballistic fibers, such as aramid fiber and ultra-high-molecular-weight polyethylene (UHMWPE), are commonly used in anti-ballistic structures due to their low density, high tensile strength and high specific modulus. However, their low modulus in the thickness direction and insufficient shear strength limits their application in certain ballistic structure. In contrast, carbon fiber reinforced epoxy resin matrix composites (CFRP) have the characteristics of high modulus in the thickness direction and high shear resistance. However, carbon fibers are rarely used and applied for protection purposes. A hybridization with aramid fiber reinforced epoxy resin matrix composites (AFRP) and CFRP has the potential to improve the stiffness and the ballistic property of the typical ballistic fiber composites. The hybrid effects on the flexural property and ballistic performance of the hybrid CFRP/AFRP laminates were investigated. Through conducting mechanical property tests and ballistic tests, two sets of reliable simulation parameters for AFRP and CFRP were established using LS-DYNA software, respectively. The experimental results suggested that by increasing the content of CFRP that the flexural properties of hybrid CFRP/AFRP laminates were enhanced. The ballistic tests’ results and the simulation illustrated that the specific energy absorption by the perforation method of CFRP achieved 77.7% of AFRP. When CFRP was on the striking face, the shear resistance of the laminates and the resistance force to the projectiles was promoted at the initial penetration stage. The proportion of fiber tensile failures in the AFRP layers was also enhanced with the addition of CFRP during the penetration process. These improvements resulted in the ballistic performance of hybrid CFRP/AFRP laminates was better than AFRP when the CFRP content was 20 wt% and 30 wt%.     

N元光纤光栅传感器阵列解调信号的最低可见度分析

研究了非平衡光纤Mach-Zehnder干涉仪解调N元光纤光栅传感器阵列时的偏振衰落问题.运用邦加球和光纤偏振光传输理论,利用简化模型,通过详细的理论分析,得到优化控制下阵列传感信号最低可见度的下限表达式,并通过计算机仿真,验证了结果的正确性,并详细分析了仿真实验的结果.     

L波段掺铒光纤放大器增益钳制及提高特性研究

报道了一种新型980 nm激光二极管(LD)泵浦高增益的掺铒光纤放大器(EDFA).通过加入中心波长为1 550 nm光纤光栅(FBG)可以明显提高增益,并分析了增益钳制的原理.实验得到其增益比无FBG结构EDFA提高8 dB,并得到了小信号输入时增益25 dB的有效钳制.     

基于PON技术的多站雷达数字光纤传输系统设计

提出一种多站雷达体系雷达数据光纤传输系统的方案设计和实现方法。与传统雷达使用的光纤传输系统不同,而是采用技术较新的基于无源光网络PON的实时数据通信系统,这是无源光网络技术在多传感器实时通信领域的首次应用。在系统设计中利用先进的光电子和在编程技术,实现了点对多点雷达数据光纤传输,提高了信号传输质量,同时系统具有动态接入和扩容的能力。     

基于小波神经网络的MEMS陀螺输出预测方法

为了解决弹载MEMS陀螺实时输出预测问题,提高陀螺输出预测精度并减小计算量,通过分析弹载陀螺信号时间序列特性,结合小波分析和神经网络两种方法的优势,提出了一种基于小波神经网络的MEMS陀螺输出预测方法。选取并优化神经网络结构参数,利用实测陀螺数据对建立的小波神经网络进行训练,并预测出未来一段较短时间的陀螺输出值。与陀螺实测值和ARMA模型预测结果的对比发现,小波神经网络方法有效地提高了MEMS陀螺输出预测的精度、减小了计算量,从而验证了该方法的有效性和精度。