期刊
IEEE SENSORS JOURNAL
卷 22, 期 18, 页码 17712-17720出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JSEN.2022.3189991
关键词
Composite insulation; high-temperature measurement; pipe inner wall; screen printing; thick-film thermocouple
资金
- National Key Research and Development Program of China [2020YFB2009100(104)]
- National Natural Science Foundation of China [52175525]
- Innovative Research Group Project of National Natural Science Foundation of China [51821003]
- China Postdoctoral Science Foundation [2017M611201, 2019T120198]
- Fund for Shanxi 1331 Project Key Subject Construction
In this study, a temperature sensing smart skin was designed for high-temperature monitoring of pipelines and engine combustion chamber walls. A thin/thick film hybrid integrated manufacturing process was proposed to improve the high temperature stability of the sensor. The experimental results showed that the prepared thick-film thermocouple had good insulation performance and high temperature stability.
We designed a temperature sensing smart skin with a composite insulation layer for high-temperature monitoring of pipelines and engine combustion chamber walls, and proposed a thin/thick film hybrid integrated manufacturing process to improve the high temperature stability of the sensor. A PtRh/Pt thick-film thermocouple was installed on an ultra-thin nickel-based alloy substrate by screen printing and then fixed on a pipe inner wall by spot welding. The morphology of the prepared composite insulation layer was studied by scanning electron microscopy, and its insulation resistance was tested at high temperatures, verifying its high insulation performance. In addition, the output voltage has high linearity in the temperature range of 25-1000 degrees C, and the prepared thermocouple shows consistency and reusability with an average Seebeck coefficient of 9.016 mu V/ degrees C. Upon testing the thermocouple at 1100 degrees C for 10 hours, the peak voltage output was 10.094 mV and the average output voltage was 10.051 mV. Experiments show that the thick-film thermo-couple operates stably at high temperatures and can work at 1400 degrees C in a short time.
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