The temperature‐dependent surface energy of ceramic single crystals

Abstract: Knowledge of the surface energy of ceramic single crystals at elevated temperatures is of fundamental importance. However, it is very hard to obtain this quantity from the existing experiments, simulations, and theories. In the present work, following the Orowan-Polanyi and Gilman models' principles, two theoretical models for the temperature-dependent surface energy of the ceramic single crystals are proposed based on the authors' previous studies on the temperature-dependent ideal tensile strength of solids.… Show more

“…(3), the grain boundary to surface energy ratio can be determined from the dihedral angle alone. [15] The surface energy γ sg has been found to decrease approximately linearly with temperature both in experimental [16] and theoretical [17] studies. The grain boundary energy γ gb often shows strong variations depending on the mutual crystallographic orientation of the respective grains.…”

Modeling Inherently Homogeneous Sintering Processes

“…(3), the grain boundary to surface energy ratio can be determined from the dihedral angle alone. [15] The surface energy γ sg has been found to decrease approximately linearly with temperature both in experimental [16] and theoretical [17] studies. The grain boundary energy γ gb often shows strong variations depending on the mutual crystallographic orientation of the respective grains.…”

Modeling Inherently Homogeneous Sintering Processes

First Principles Unveiling Equilibrium Shapes for Understanding Morphological Growth Mechanisms in Alumina Polymorphs

Understanding the ultra-high-temperature mechanical behaviors of advanced two-dimensional carbon-carbon composites