This paper reviews the crystal chemistry, synthesis, densification, microstructure, mechanical
properties, and oxidation behavior of zirconium diboride (ZrB2) and hafnium diboride (HfB2) …

MoSi 2-based composites possess significant potential to meet the demands of advanced
high temperature structural applications in the range 1200–1600° C, in oxidizing and …

Abstract Although the TM-Si-C ternary compounds are potential high-temperature ceramics,
the equilibrium phase, mechanical and thermodynamic properties of Nowotny phase (NP) …

Abstract Although the TM‐Si‐C ternary compounds are promising advanced ceramics, the
solution mechanism of C element in TM‐Si matrix is entirely unclear. In particular, the …

During the current study, structural, electrical, elastic, and thermal properties of TM 5 Si 3 N
(TM= V, Nb, and Ta) Nowotny phase were researched using first-principles calculations. The …

Inspection of the scientific literature reveals that intermetallic compounds have, in recent
years, attracted considerable interest as a result of their unique elevated temperature …

Derived from the highly acclaimed series Materials Science and Technology, this book
covers the properties as well as the present and emerging applications of intermetallics …

The need for high performance materials in aerospace, automotive and industrial
components operating at temperatures in the range of 1100–1500° C has led to a surge in …

Additions of 1‐20 mol% Sc2O3 or Y2O3 to MoSi2 eliminate glassy SiO2, which improves
mechanical properties at both ambient and high temperatures. In particular, only 1 mol …

Molybdenum disilicide (MoSi 2) is a promising candidate material for high temperature
structural applications. It is a high melting point (2030° C) material with excellent oxidation …