For many decades, experimental solid mechanics has played a crucial role in characterizing
and understanding the mechanical properties of natural and novel artificial materials …

Fiber-reinforced polymer (FRP) composites have gained widespread applications in many
engineering fields, making it imperative to study long-term performance under service …

The mechanical behaviors of crystalline materials, in particular the atomic scale deformation
and failure processes, are strongly influenced by the local atomic stress near crystalline …

Abstract A smooth Crack Band Model (sCBM) is developed for anisotropic materials with
both high and low magnitude of anisotropy. sCBM is primarily used as a regularization …

The mechanical and thermal properties of transition metal dichalcogenides (TMDs) are
directly relevant to their applications in electronics, thermoelectric devices, and heat …

Recent optimum fitting of the data from eleven different types of distinctive fracture tests of
quasibrittle materials, including the gap tests and the size effect tests, revealed that the crack …

Local kinetic processes during crack growth are non-equilibrium and discrete and thus
cannot be resolved in the framework of continuum thermodynamics. Atomistic modeling …

A comprehensive understanding of atomic fracture mechanisms in 2D materials is essential
for their practical applications, yet this knowledge is currently limited. To address this gap, an …

This article provides an overview of recent advances, challenges, and opportunities in
multiscale computational modeling techniques for study and design of two-dimensional (2D) …

Monolayer MXenes are a novel class of two-dimensional transition metal carbides/nitrides
with fascinating physicochemical properties. Despite recent advances in the study of …