Abstract
Thermocouples classically consist of two metals or semiconductor components that are joined at one end, where temperature is measured. Carbon black is a low-cost semiconductor with a Seebeck coefficient that depends on the structure of the carbon particles. Different carbon black screen-printing inks generally exhibit different Seebeck coefficients, and two can therefore be combined to realize a thermocouple. In this work, we used a set of four different commercially available carbon-black screen-printing inks to print all-carbon-black thermocouples. The outputs of these thermocouples were characterized and their Seebeck coefficients determined. We found that the outputs of pure carbon-black thermocouples are reasonably stable, linear, and quantitatively comparable to those of commercially available R- or S-type thermocouples. It is thus possible to fabricate thermocouples by an easily scalable, cost-efficient process that combines two low-cost materials.
Subject
Electrical and Electronic Engineering,Biochemistry,Instrumentation,Atomic and Molecular Physics, and Optics,Analytical Chemistry
Reference25 articles.
1. Review of temperature measurement
2. Traceable Temperatures: An introduction to temperature measurement and calibration, 2nd edn
3. Bimaterials Thermometers—The Measurement Instrumentation and Sensors Handbook;Stephenson,1999
4. Investigation of high-temperature platinum resistance thermometers at temperatures up to 962 °C, and in some cases 1064 °C;Strouse;Temp. Meas. Control Sci. Ind.,1992
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