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Flash sintering of oxide powders is associated with dissipated power in the narrow range 10–50 W·cm−3 irrespective of their composition. By analysis and normalization of the experimental results from literature to… Click to show full abstract
Flash sintering of oxide powders is associated with dissipated power in the narrow range 10–50 W·cm−3 irrespective of their composition. By analysis and normalization of the experimental results from literature to constant particle size (100 nm) and applied electric field (500 V cm−1), we show that the relative flash sintering temperature is dictated by the oxide crystal-type and its cation ionic potential resulting from its chemical composition. The expected flash onset temperature increases with the increase in fusion enthalpy and confirm the formation of liquid at the particle contacts as a mechanism for the powder densification.
Journal Title: Scripta Materialia
Year Published: 2019
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