Radio frequency identification (RFID) based corrosion monitoring sensors Part 2 - Application and testing of coating materials

Y. L. He; S. McLaughlin; J. S. H. Lo; C. Shi; J. Lenos; A. Vincelli

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Radio frequency identification (RFID) based corrosion monitoring sensors Part 2 - Application and testing of coating materials

机译：基于射频识别（RFID）的腐蚀监测传感器第2部分-涂料的应用和测试

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Cost-effective radio frequency identification (RFID) transponders (tags) were investigated for wireless corrosion monitoring by applying a metal filled conductive composite coating onto the surface of the plastic tags. The coating acted as an electromagnetic interference (EMI) shield by attenuating or completely blocking the radio frequency signals transmitted between the transceiver (reader) and the tag. When the coated RFID tag was exposed to a corrosive environment through accelerated corrosion tests or marine atmospheric tests, the degradation of the coating decreased the EMI shielding effectiveness and resulted in a strengthened communication between the reader and the tag. By establishing a correlation between the corrosion rate of the metal object to be monitored and the sensor responding performance, it was possible to monitor cumulative corrosion damage via wireless sensor reading.

机译：通过将金属填充的导电复合涂层应用于塑料标签的表面，研究了具有成本效益的射频识别（RFID）应答器（标签）以进行无线腐蚀监测。该涂层通过衰减或完全阻止收发器（读取器）和标签之间传输的射频信号而充当电磁干扰（EMI）屏蔽。当通过加速腐蚀测试或海洋大气测试将带涂层的RFID标签暴露在腐蚀性环境中时，涂层的降解会降低EMI屏蔽效果，并导致阅读器与标签之间的通信增强。通过建立要监测的金属物体的腐蚀速率与传感器响应性能之间的相关性，可以通过无线传感器读数来监测累积的腐蚀破坏。

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《Corrosion Engineering, Science and Technology》 |2014年第8期|共10页
作者
Y. L. He; S. McLaughlin; J. S. H. Lo; C. Shi; J. Lenos; A. Vincelli;
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原文格式 PDF
正文语种 eng
中图分类金属腐蚀与保护、金属表面处理;
关键词
Corrosion monitoring; Wireless sensor; RFID; Electromagnetic interference; Coating;

机译：腐蚀监测;无线传感器;RFID;电磁干扰;涂层;

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1. Radio frequency identification (RFID) based corrosion monitoring sensors Part 2 - Application and testing of coating materials [J] . Y. L. He, S. McLaughlin, J. S. H. Lo, Corrosion Engineering, Science and Technology . 2014,第8期

机译：基于射频识别（RFID）的腐蚀监测传感器第2部分-涂料的应用和测试
2. Development of radio-frequency identification (RFID) sensors suitable for smart-monitoring applications in sewer systems [J] . Tatiparthi Sundra R., De Costa Yashika G., Whittaker Colin N., Water Research . 2021,第Juna15期

机译：开发用于下水道系统中的智能监控应用的射频识别（RFID）传感器
3. Inkjet printed nanomaterial based flexible radio frequency identification (RFID) tag sensors for the internet of nano things [J] . Singh Ravina, Singh Eric, Nalwa Hari Singh RSC Advances . 2017,第77期

机译：喷墨印花纳米材料的柔性射频识别（RFID）标签传感器，用于纳米互联网
4. LOW-COST CORROSION MONITORING SENSORS BASED ON RADIO FREQUENCY IDENTIFICATION (RFID) TECHNOLOGY [C] . Youliang He, Jason Lo, Shona McLaughlin, . 2012

机译：基于射频识别（RFID）技术的低成本腐蚀监测传感器
5. On the creation of radio frequency identification (RFID) based automatic identification and data capture infrastructure. [D] . Su, Xiaoyong. 2007

机译：建立基于射频识别（RFID）的自动识别和数据捕获基础结构。
6. Flexible Radio-Frequency Identification (RFID) Tag Antenna for Sensor Applications [O] . Mohammad Tariqul Islam, Touhidul Alam, Iskandar Yahya, 2018

机译：传感器应用的柔性射频识别（RFID）标签天线
7. A Novel Radio Frequency Identification (RFID)-Based Thermal Convection Nonfloating-Type Accelerometer with Stacking Layers under Heater and Thermal Sensors [O] . 2015

机译：基于加热器和热传感器下的堆叠层的新型射频识别（RFID）的热对流非氟型加速度计
8. Radio Frequency Identification (RFID) Based Corrosion Monitoring Sensors. Part 2: Application and Testing of the Coating Materials. [R] . He, Y., McLaughlin, S., Lo, J. S., 2014

机译：基于射频识别（RFID）的腐蚀监测传感器。第2部分：涂层材料的应用和测试。

Radio frequency identification (RFID) based corrosion monitoring sensors Part 2 - Application and testing of coating materials

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