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Stability and characterisation of Pyromark 2500 cured at different temperatures

Sahar Hosseini, Juan F. Torres, Mahdiar Taheri, Antonio Tricoli, Wojciech Lipiński, Joe Coventry

2023Solar Energy11 citationsDOIOpen Access PDF

Abstract

Pyromark 2500 is a silicone-based high-temperature solar absorber coating commonly used for concentrating solar power receivers. It has good optical efficiency in its pristine condition but is prone to optical and/or mechanical degradation and failure after years of operation. This work studies the effect of curing temperature on the long-term stability of Pyromark. Pyromark painted on Inconel 625 was cured at 750℃, 850℃, and 950℃, and then isothermally aged at 900℃ for 3000 h. Pristine Pyromark cured at higher temperatures was shown to have a lower solar absorptance, but better optical and mechanical stability over the testing period. For example, the solar absorptance of pristine Pyromark cured at 950℃ was 1.2 % and 1.0 % lower than when cured at 750℃ and 850℃, respectively, but due to better optical stability during aging, had the highest solar absorption of all cases after completion of the 3000 h of testing. In terms of physical failure, spallation occurred for Pyromark cured at 750℃ and significant detachment between layers occurred for Pyromark cured at 850℃, whereas there was no sign of these failure modes for samples cured at 950℃. Therefore, despite the disadvantage of lower initial optical efficiency, curing Pyromark at a higher temperature appears to bring advantages in terms of long-term mechanical stability and a reduced optical degradation rate.

Topics & Concepts

Materials scienceAbsorptanceComposite materialCoatingIsothermal processSiliconeCuring (chemistry)Concentrated solar powerSpallationSolar energyOpticsReflectivityThermodynamicsQuantum mechanicsEcologyBiologyPhysicsNeutronSolar Thermal and Photovoltaic SystemsSpacecraft and Cryogenic TechnologiesSolar Energy Systems and Technologies
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