Hafnium carbide (HfC) is a promising materials for high-temperature heat exchangers due to its high melting point (4170 K). Nevertheless, its fast oxidation into fragile hafnia prevents it from being used for open-air solar receivers. The incorporation of silicon-based compounds would reduce its oxidation kinetics and extend the lifetime of HfC-based elements. The oxidation behavior of HfC sintered with the addition of 10vol% TaSi2 or ZrSi2 is here investigated. The optical properties on the as-received surfaces and on the oxidized ones were measured, especially the ratio of the 0.6-2.8 µm emissivity (close to the solar absorptivity ?) to the total hemispherical emissivity ?. These optical properties are important parameters for applications using concentrated solar radiation
Effect of high temperature on the optical properties of HfC-based ceramics
D Sciti;L Silvestroni
2017
Abstract
Hafnium carbide (HfC) is a promising materials for high-temperature heat exchangers due to its high melting point (4170 K). Nevertheless, its fast oxidation into fragile hafnia prevents it from being used for open-air solar receivers. The incorporation of silicon-based compounds would reduce its oxidation kinetics and extend the lifetime of HfC-based elements. The oxidation behavior of HfC sintered with the addition of 10vol% TaSi2 or ZrSi2 is here investigated. The optical properties on the as-received surfaces and on the oxidized ones were measured, especially the ratio of the 0.6-2.8 µm emissivity (close to the solar absorptivity ?) to the total hemispherical emissivity ?. These optical properties are important parameters for applications using concentrated solar radiationI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
