Mechanical metamaterials are engineered materials with unconventional mechanical
behavior that originates from artificially programmed microstructures along with intrinsic …

The superior multi-functional properties of polymer composites have made them an ideal
choice for aerospace, automobile, marine, civil, and many other technologically demanding …

Honeycomb lattices exhibit remarkable structural properties and novel functionalities, such
as high specific energy absorption, excellent vibroacoustic properties, and tailorable specific …

The application of smart materials and metastructures has been rapidly increasing in
advanced multiphysical systems because of their ability to modify mechanical responses by …

Engineered honeycomb lattice materials with high specific strength and stiffness along with
the advantage of programmable direction-dependent mechanical tailorability are being …

A generic analytical framework is proposed to obtain the dynamic elastic moduli of lattice
materials under steady-state vibration conditions. The dynamic deformation behaviour of the …

Owing to inhomogeneous strain and high surface-to-volume ratio in nanostructures, it is
imperative to account for the flexoelectricity as well as surface effect while analyzing the size …

This paper proposes an accurate three-dimensional framework for elastic and viscoelastic
free vibration investigation of in-plane functionally graded (IPFG) orthotropic rectangular …

Metamaterials have been a hot topic over the past 2 decades, involving scientific research
directions in materials, engineering, and physics. Among them, programmable mechanical …

A large number of studies have been reported in literature to analyse various parameters
that influence the Poisson's ratios of multi-functional lattice materials. However, the major …