Study of hydraulic pressure sensing characteristics based on micro-cavity structure

机译：基于微腔结构的液压传感特性研究

获取原文

获取外文期刊封面目录资料

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

The microcavity structure is formed by adding an air cavity at the fusion splice point of single-mode, thin-core fiber and single-mode (STS). This paper takes the microcavity optical fiber sensing structure as the research object, and first analyzes the microcavity optical fiber sensing structure and the principle of temperature sensing, and combined with experiments to study the pressure sensing characteristics of the microcavity sensing structure, the results show that: as the microcavity increases, the range of measurable hydraulic pressure increases, and the sensitivity increases. The best structure is selected for hydraulic pressure sensing detection.

机译：通过在单模，薄芯光纤和单模（STS）的熔接点处添加空腔来形成微腔结构。本文采用微腔光纤传感结构作为研究对象，首先分析微腔光纤感测结构和温度传感原理，并结合实验研究微腔传感结构的压力传感特性，结果表明：随着微腔的增加，可测量的液压范围增加，灵敏度增加。选择最佳结构用于液压传感检测。

著录项

来源
《IEEE International Conference on Consumer Electronics and Computer Engineering》|2021年|733-736|共4页
会议地点
作者
WEI Fengjuan; LI Lijun; ZHAN Bangtong;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
Temperature measurement; Temperature sensors; Sensitivity; Hydraulic systems; Microcavities; Sensors; Monitoring;

机译：温度测量;温度传感器;敏感性;液压系统;微腔;传感器;监测;

相似文献

外文文献
中文文献
专利

1. Hydraulics characteristics of forward osmosis membrane module boundary based on FBG sensing technology: Hydraulic properties and operating condition optimization [J] . Bai Ruzhen, Wang Jie, Jia Hui, Chemosphere . 2019,第JULa期

机译：基于FBG传感技术的前渗透膜组件边界的水力特性：水力特性和运行条件优化。
2. Hydraulics characteristics of forward osmosis membrane module boundary based on FBG sensing technology: Hydraulic properties and operating condition optimization [J] . Bai Ruzhen, Wang Jie, Jia Hui, Chemosphere . 2019,第Jula期

机译：基于FBG传感技术的前渗透膜模块边界的液压特性：液压性能和运行条件优化
3. Studies on the heterogeneity of saturated hydraulic conductivity, 1: A stochastic study on the heterogeneity of saturated hydraulic conductivity based on a pore structure model. [J] . Haraguchi N., Annaka T. 農業土木学会論文集 . 1997,第190期

机译：饱和导水率非均质性研究：1：基于孔隙结构模型的饱和导水率非均质性随机研究。
4. Study on Oil Pressure Characteristics and Trajectory Tracking Control in the Electro-hydraulic Servo System of a Torsional Isolator with Negative Stiffness Structures [C] . Wenping Li, Hui Liu, Xiaojie Wang, International Conference on Mechanical Design . 2018

机译：负刚度结构的扭转隔离器电液伺服系统中的油压特性及轨迹跟踪控制研究
5. Study of Characteristics of Liquid-Based Bridge Structure as Mechanical Elements. [D] . Zhan, Yujia. 2012

机译：液基桥梁结构力学特性的研究。
6. Temperature Characteristics of a Pressure Sensor Based on BN/Graphene/BN Heterostructure [O] . Mengwei Li, Teng Zhang, Pengcheng Wang, 2019

机译：基于BN /石墨烯/ BN异质结构的压力传感器的温度特性
7. NUMERICAL STUDY ON THE FLOW CHARACTERISTICS OF A HYDRAULIC PISTON PUMP BASED ON THE ANGLE OF THE SWASH-PLATE AND THE DISCHARGE PRESSURE [O] . J.H. Yoon, K. Lee, M.C. Kang 2016

机译：基于斜纹板的角度和排出压力的液压活塞泵流动特性的数值研究
8. Using Satellite-Based Remotely-Sensed Data to Determine Tropical Cyclone Size and Structure Characteristics. [R] . E. A. Ritchie J. S. Tyo 2013

机译：利用基于卫星的遥感数据确定热带气旋的大小和结构特征。

Study of hydraulic pressure sensing characteristics based on micro-cavity structure

摘要

著录项

引文网络

相似文献

相关主题

期刊订阅