Journal of Materials Research and Technology (Mar 2023)

Phase-reassembled high-entropy fluorites for advanced thermal barrier materials

  • Dowon Song,
  • Myeungwoo Ryu,
  • Janghyeok Pyeon,
  • Hak-Beom Jeon,
  • Taeseup Song,
  • Ungyu Paik,
  • Byung-il Yang,
  • Yeon-Gil Jung,
  • Yoon-Suk Oh

Journal volume & issue
Vol. 23
pp. 2740 – 2749

Abstract

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Thermal insulating materials are in high demand for heat flux regulation as they enhance energy conversion efficiency and reduce the consumption of fossil fuels. In this study, phase-reassembled high-entropy oxides (HEOs) were successfully produced via conventional solid-state reaction, and their thermophysical properties were investigated. Promising thermal barrier coating (TBC) candidates, A2B2O7 and A3B′O7 oxides, were reassembled to a single defective fluorite structure to further reduce the thermal conductivity via an entropy-stabilization strategy. The phase-reassembled HEO ceramics exhibited low thermal conductivity (1.06 W/m·K) and glass-like thermal conduction behavior owing to their highly distorted crystal structure. In addition, their compatible thermal expansion (∼9.95 × 10−6/K) suggests that the phase-reassembled HEOs are promising candidates for new thermal barrier materials. This study proposes a new strategy for reducing the thermal conductivity via phase reassemble beyond simply increasing the number of components.

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