A comprehensive review on the vibration analyses of small-scaled plate-based structures by utilizing the nonclassical continuum elasticity theories
In recent years, mechanical characteristics including vibration, bending, buckling and
postbuckling, stability and instability, etc. of small-scaled structures (such as …
postbuckling, stability and instability, etc. of small-scaled structures (such as …
Advances in finite element modelling of graphene and associated nanostructures
Graphene and its associated nanostructures (GANS) have been widely investigated by
means of experimental and numerical approaches over the last decade. GANS and GANS …
means of experimental and numerical approaches over the last decade. GANS and GANS …
Adaptive momentum-based optimization to train deep neural network for simulating the static stability of the composite structure
Z Chi, Z Jiang, MM Kamruzzaman… - Engineering with …, 2022 - Springer
This article is the first attempt to employ deep learning to estimate the mechanical
performance of multi-phase systems. Features of the design-points are obtained with the aid …
performance of multi-phase systems. Features of the design-points are obtained with the aid …
A simple mathematical model of microtubules surrounded by an elastic matrix by nonlocal finite element method
A simple nonlocal beam model is proposed to study buckling response of protein
microtubules. The size-effect for buckling model of microtubules is considered by using the …
microtubules. The size-effect for buckling model of microtubules is considered by using the …
A size-dependent shear deformation beam model based on the strain gradient elasticity theory
A new size-dependent higher-order shear deformation beam model is developed based on
modified strain gradient theory. The model captures both the microstructural and shear …
modified strain gradient theory. The model captures both the microstructural and shear …
Longitudinal vibration analysis for microbars based on strain gradient elasticity theory
The longitudinal free vibration problem of a micro-scaled bar is formulated using the strain
gradient elasticity theory. The equation of motion together with initial conditions, classical …
gradient elasticity theory. The equation of motion together with initial conditions, classical …
[HTML][HTML] Torsional and longitudinal frequency and wave response of microtubules based on the nonlocal continuum and nonlocal discrete models
In this paper, the size-effects in the torsional and axial response of microtubules by using the
nonlocal continuum rod model is investigated. To this end, continuous and discrete rod …
nonlocal continuum rod model is investigated. To this end, continuous and discrete rod …
DSC method for buckling analysis of boron nitride nanotube (BNNT) surrounded by an elastic matrix
A simple mechanical model for buckling behavior of boron nitride nanotube (BNNT)
surrounded by an elastic matrix is presented. A nonlocal-continuum model is proposed for …
surrounded by an elastic matrix is presented. A nonlocal-continuum model is proposed for …
Axial vibration analysis of nanorods (carbon nanotubes) embedded in an elastic medium using nonlocal elasticity
M Aydogdu - Mechanics Research Communications, 2012 - Elsevier
The axial vibration of single walled carbon nanotube embedded in an elastic medium is
studied using nonlocal elasticity theory. The nonlocal constitutive equations of Eringen are …
studied using nonlocal elasticity theory. The nonlocal constitutive equations of Eringen are …
[HTML][HTML] Longitudinal vibration analysis of strain gradient bars made of functionally graded materials (FGM)
Longitudinal free vibration analysis of axially functionally graded microbars is investigated
on the basis of strain gradient elasticity theory. Functionally graded materials can be defined …
on the basis of strain gradient elasticity theory. Functionally graded materials can be defined …