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Abstract Rare earth tantalate and niobate have attracted much attention due to their excellent thermo-physical properties and are considered as potential thermal barrier coating (TBC) materials. The bulk specimens of… Click to show full abstract
Abstract Rare earth tantalate and niobate have attracted much attention due to their excellent thermo-physical properties and are considered as potential thermal barrier coating (TBC) materials. The bulk specimens of Dy3(Ta1-xNbx)O7 (x = 0, 1/6, 2/6, 3/6, 4/6, 5/6, and 6/6) ceramics are synthesized by high-temperature solid-state reaction in this work, and the results of the phase structure identification show that the Dy3(Ta1-xNbx)O7 ceramics vary from ordered weberite structure to disordered defect fluorite structure with the increase of component parameters x. Interestingly, the thermo-physical properties and mechanical properties of Dy3(Ta1-xNbx)O7 ceramics are closely related to the order-disorder transformation process. Furthermore, the Dy3(Ta1-xNbx)O7 ceramics possess low thermal conductivity and high thermal expansion coefficients, which suggests that Dy3(Ta1-xNbx)O7 ceramics can be candidates as TBC materials.
Journal Title: Ceramics International
Year Published: 2019
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