[HTML][HTML] Programmable multi-physical mechanics of mechanical metamaterials
Mechanical metamaterials are engineered materials with unconventional mechanical
behavior that originates from artificially programmed microstructures along with intrinsic …
behavior that originates from artificially programmed microstructures along with intrinsic …
Tailoring the mechanical properties of 2D materials and heterostructures
The mechanical behavior of high quality two-dimensional (2D) crystals offers exciting
opportunities for new material design, such as the combination of extremely high in-plane …
opportunities for new material design, such as the combination of extremely high in-plane …
Programmable stiffness and shape modulation in origami materials: Emergence of a distant actuation feature
This paper develops an origami based mechanical metamaterial with programmable
deformation-dependent stiffness and shape modulation, leading to the realization of a …
deformation-dependent stiffness and shape modulation, leading to the realization of a …
Broadband dynamic elastic moduli of honeycomb lattice materials: A generalized analytical approach
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 …
materials under steady-state vibration conditions. The dynamic deformation behaviour of the …
Sparse machine learning assisted deep computational insights on the mechanical properties of graphene with intrinsic defects and do**
Despite the tremendous capabilities of Molecular dynamics (MD) simulations, they suffer
from the limitation of computationally intensive and time-consuming nature. This hinders the …
from the limitation of computationally intensive and time-consuming nature. This hinders the …
[HTML][HTML] Voltage-dependent modulation of elastic moduli in lattice metamaterials: Emergence of a programmable state-transition capability
Two-dimensional lattices are ideal candidate for develo** artificially engineered materials
and structures across different length-scales, leading to unprecedented multi-functional …
and structures across different length-scales, leading to unprecedented multi-functional …
[HTML][HTML] Probing the molecular-level energy absorption mechanism and strategic sequencing of graphene/Al composite laminates under high-velocity ballistic impact …
Motivated by recent discoveries concerning the extreme superiority of multilayer graphene in
terms of kinetic energy dissipation compared to conventional monolithic materials, this …
terms of kinetic energy dissipation compared to conventional monolithic materials, this …
Map** the elastic properties of two-dimensional MoS2 via bimodal atomic force microscopy and finite element simulation
Elasticity is a fundamental mechanical property of two-dimensional (2D) materials, and is
critical for their application as well as for strain engineering. However, accurate …
critical for their application as well as for strain engineering. However, accurate …
[HTML][HTML] Stochastic dynamic analysis of twisted functionally graded plates
This paper presents a stochastic dynamic analysis of functionally graded plates by following
an efficient neural network based approach coupled with the finite element method. An …
an efficient neural network based approach coupled with the finite element method. An …
Anisotropy tailoring in geometrically isotropic multi-material lattices
This article proposes the concept of anisotropy tailoring in multi-material lattices based on a
mechanics-based bottom-up framework. It is widely known that isotropy in a mono-material …
mechanics-based bottom-up framework. It is widely known that isotropy in a mono-material …