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High-entropy (YErYbLu)2SiO5 ceramic aerogel: A potential ceramic insulator with low thermal conductivity

CERAMICS INTERNATIONAL [2023]
Jie Wang, Wei Wang, Xuening Liu, Sisi Shang, Yuting Chen, Lingyan Shi, Sheng Cui
ABSTRACT

Conventional oxide aerogels have limitations in terms of structural damage and phase transformation at high temperatures. A novel high-entropy (YErYbLu) 2 SiO 5 ceramic aerogel was synthesized by a combination of the sol-gel process, supercritical drying, and high-temperature calcination. The successful synthesis of a high-entropy (YErYbLu) 2 SiO 5 ceramic aerogel in a single phase after calcination at 1250 °C was confirmed by X-ray diffraction, scanning electron microscopy, and transmission electron microscopy. The high-entropy ceramic aerogel (YErYbLu) 2 SiO 5 still shows excellent structural and phase stability after annealing at 1400 °C. The structurally reconstructed samples (RSO) exhibit low densities ranging from 1.79 to 3.28 g/cm 3 , room-temperature thermal conductivities between 0.109 and 0.253 W·m -1 K -1 , and fracture toughness values ranging from 0.61 to 9.70 MPa. Notably, the lowest thermal conductivity is less than 1/10 of that of the corresponding dense crystalline ceramics. Furthermore, the RSO has a low coefficient of thermal expansion within the temperature range of 360–1200 °C (ranging from 5.84 × 10 −6  °C −1 to 7.36 × 10 −6  °C −1 ). The RSO exhibits high residual strength retention after thermal shock testing. These properties position the high-entropy (YErYbLu) 2 SiO 5 ceramic aerogel as a promising candidate for nano-thermal insulation as a porous ceramic material that undergoes structural reconstruction.

MATERIALS

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