The Analysis of the Application of Using Nanoceramic Oxides in Fire-resistant Coatings

Fan Xu

doi:10.54097/hset.v73i.12985

Authors

Fan Xu

DOI:

https://doi.org/10.54097/hset.v73i.12985

Keywords:

Ceramic oxide materials, Fire resistance materials, Nanomaterials.

Abstract

The increased demand for enhanced fire safety in various industries has spurred interest in the properties and applications of nanoceramic oxide materials. This paper provides a thorough examination of the fundamental attributes of nanoceramic oxides, showcasing their exceptional temperature, corrosion, and wear resistance. The paper discusses synthesis methods like evaporation condensation, high-energy mechanical ball milling, and both vapor and liquid phase chemical techniques. The paper further explicates the underlying mechanisms that enable fire-resistant coatings to retard flames, highlighting thermal insulation, intumescence, and more. Of significance is the potential of nanoceramic oxides to augment the performance of these coatings, evidenced by applications like tunnel fire retardant coatings and steel structure coatings that integrate materials such as Mg (OH)₂, nano-SiO₂, and TiO₂. While challenges in raw material sourcing, eco-friendliness, production, and expertise arise, solutions are proposed. Conclusively, the study underscores the transformative potential of nanoceramic oxides in the realm of fire-resistant coatings, pushing boundaries in fire safety across sectors.

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