Publication: Design and fabrication of coaxial surface junction thermocouples for transient heat transfer measurements
Date
2008
Authors
Mohammed H.
Salleh H.
Yusoff M.Z.
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Abstract
Low cost coaxial surface junction thermocouples (CSJTs') have been fabricated in-house and calibrated to measure the transient surface temperature rise within a UNITEN's shock tube wall facility, consisting of K-type coaxial thermocouple elements. The aim of this paper is to explain the design technique of the CSJTs' and the difficulties that have occurred during the fabrication process. The microstructural analysis and the chemical characterization for these types of thermocouples have also been carried out to verify the surface morphology and to qualitatively evaluate the CSJT materials composition. The preliminary testing was performed to demonstrate the performance of these thermocouples to be used for measuring the surface temperatures and heat transfer rates under transient conditions. The preliminary results from shock tube tests have shown that these thermocouples have a time response on the order of microseconds and were suitable for making heat transfer measurements in highly transient conditions. It was concluded that the current construction technique produced gauges that were reliable, reproducible, rugged and inexpensive. � 2008 Elsevier Ltd. All rights reserved.
Description
Keywords
Design , Fabrication coaxial surface junction thermocouples , Shock tube facility , Transient heat transfer , Type-K , Atmospheric temperature , Bioconversion , Geophysical prospecting , Heat exchangers , Heat transfer , Heating equipment , Nanofluidics , Optical design , Process design , Process engineering , Saturation (materials composition) , Shock tubes , Shock waves , Structure (composition) , Surface properties , Surface testing , Surfaces , Thermal effects , Thermoanalysis , Thermocouples , Thermometers , Thickness measurement , Transient analysis , Tubes (components) , (1 1 0) surface , And heat transfer , chemical characterization , Current construction , Design techniques , Elsevier (CO) , Fabrication processes , Low costs , making heat , Microstructural analysis , preliminary testing , surface temperatures , Time responses , transient conditions , Transient heat transfer , Tube walls , Surface morphology