Ceramic materials having melting points higher than 3000° C and suitable for structural
applications at above 2000° C are commonly known as Ultra-High Temperature Ceramics …

Abstract Carbon/carbon (C/C) composites are considered as one of the most promising
materials in structural applications owing to their excellent mechanical properties at high …

Ultra-high temperature ceramics (UHTCs) have played a significant role in fulfilling demands
for the thermal protection system (TPS) in the aerospace sector, however, a promising …

High-entropy materials often outperform their lower-entropy relatives in various aspects,
such as thermal stability and fracture toughness. While there are extensive research …

Analytical modeling of thermal and mechanical response is a fundamental step in the design
process for ultra-high-temperature ceramic components, such as nose tips and wing leading …

Materials capable of oxidizing in a protective manner at ultrahigh (> 1700° C) temperatures
are needed to push beyond this barrier defined by SiC. Although possessing attractive …

Abstract Ultra-High-Temperature Ceramic (UHTC) materials, because of their high
temperature resistance, are suitable as thermal protection systems for re-entry vehicles or …

The oxidation behaviour of transition metal diboride ceramics is reviewed with emphasis on
the performance of zirconium diboride and hafnium diboride. First, the oxidation behaviour …

Oxidation inhibition behaviors of the HfB 2-SiC-TaSi 2 coatings fabricated by spark plasma
sintering method were investigated at 1700° C. The inerting protection capability and …

Some aspects of heat transfer upon the interaction between components with a sharp
leading edge and high-enthalpy high-speed flow of dissociated air have been considered; …