A Review of High-Temperature Aerogels: Composition, Mechanisms, and Properties

Wang, Conghui; Bai, Letian; Xu, Hongxin; Qin, Shengjian; Li, Yanfang; Zhang, Guanglei

doi:10.3390/gels10050286

Gels

2024

DOI: 10.3390/gels10050286

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A Review of High-Temperature Aerogels: Composition, Mechanisms, and Properties

Conghui Wang,

Letian Bai,

Hongxin Xu

et al.

Abstract: High-temperature aerogels have garnered significant attention as promising insulation materials in various industries such as aerospace, automotive manufacturing, and beyond, owing to their remarkable thermal insulation properties coupled with low density. With advancements in manufacturing techniques, the thermal resilience of aerogels has considerable improvements. Notably, polyimide-based aerogels can endure temperatures up to 1000 °C, zirconia-based aerogels up to 1300 °C, silica-based aerogels up to 1500 … Show more

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Cited by 5 publications

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The impact of aluminum oxide deposition on the high-temperature resistance of silica aerogels

Gao,

Han,

Pan

et al. 2024

J Sol-Gel Sci Technol

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The impact of aluminum oxide deposition on the high-temperature resistance of silica aerogels

Gao,

Han,

Pan

et al. 2024

J Sol-Gel Sci Technol

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A critical review of superinsulation performance of ceramic nanofibrous aerogel for extreme conditions: Modeling, fabrication, applications, and outlook

Okafor,

He,

Tang

2025

Advances in Colloid and Interface Science

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Sol–Gel Derived Alumina Particles for the Reinforcement of Copper Films on Brass Substrates

Mohamed,

Vuksanović,

Vasiljević-Radović

et al. 2024

Gels

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The aim of this study is to provide tailored alumina particles suitable for reinforcing the metal matrix film. The sol–gel method was chosen to prepare particles of submicron size and to control crystal structure by calcination. In this study, copper-based metal matrix composite (MMC) films are developed on brass substrates with different electrodeposition times and alumina concentrations. Scanning electron microscopy (FE-SEM) with energy-dispersive spectroscopy (EDS), TEM, and X-ray diffraction (XRD) were used to characterize the reinforcing phase. The MMC Cu-Al2O3 films were synthesized electrochemically using the co-electrodeposition method. Microstructural and topographical analyses of pure (alumina-free) Cu films and the Cu films with incorporated Al2O3 particles were performed using FE-SEM/EDS and AFM, respectively. Hardness and adhesion resistance were investigated using the Vickers microindentation test and evaluated by applying the Chen–Gao (C-G) mathematical model. The sessile drop method was used for measuring contact angles for water. The microhardness and adhesion of the MMC Cu-Al2O3 films are improved when Al2O3 is added. The concentration of alumina particles in the electrolyte correlates with an increase in absolute film hardness in the way that 1.0 wt.% of alumina in electrolytes results in a 9.96% increase compared to the pure copper film, and the improvement is maximal in the film obtained from electrolytes containing 3.0 wt.% alumina giving the film 2.128 GPa, a 134% hardness value of that of the pure copper film. The surface roughness of the MMC film increased from 2.8 to 6.9 times compared to the Cu film without particles. The decrease in the water contact angle of Cu films with incorporated alumina particles relative to the pure Cu films was from 84.94° to 58.78°.

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A Review of High-Temperature Aerogels: Composition, Mechanisms, and Properties

Cited by 5 publications

References 93 publications

The impact of aluminum oxide deposition on the high-temperature resistance of silica aerogels

The impact of aluminum oxide deposition on the high-temperature resistance of silica aerogels

A critical review of superinsulation performance of ceramic nanofibrous aerogel for extreme conditions: Modeling, fabrication, applications, and outlook

Sol–Gel Derived Alumina Particles for the Reinforcement of Copper Films on Brass Substrates

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