On the nonlinear vibration and static deflection problems of actuated hybrid nanotubes based on the stress-driven nonlocal integral elasticity
In the present paper, the effects of material properties, nonlocal parameter, Lorentz and
electric forces on maximum static deflections and natural frequencies of actuated hybrid …
electric forces on maximum static deflections and natural frequencies of actuated hybrid …
Overview on the evaluation of the elastic properties of non-carbon nanotubes by theoretical approaches
JM Antunes, AFG Pereira, NA Sakharova - Materials, 2022 - mdpi.com
Low-dimensional structures, such as nanotubes, have been the focus of research interest for
approximately three decades due to their potential for use in numerous applications in …
approximately three decades due to their potential for use in numerous applications in …
Determination of carbon nanotubes size-dependent parameters: molecular dynamics simulation and nonlocal strain gradient continuum shell model
Knowing the size-dependent parameters is essential in continuum modeling of
micro/nanostructures. In this paper, nonlocal and material length scale parameters are …
micro/nanostructures. In this paper, nonlocal and material length scale parameters are …
Effect of carbon doping on electromechanical response of boron nitride nanosheets
The electromechanical response of hexagonal-boron nitride nanosheets (h-BNSs) was
studied via molecular dynamics simulations (MDS) with a three-body Tersoff potential force …
studied via molecular dynamics simulations (MDS) with a three-body Tersoff potential force …
Probabilistic investigation of temperature-dependent vibrational behavior of hetero-nanotubes
The present report outlines a probabilistic investigation of the temperature-dependent
resonant frequency of various BNNT and CNT-based hetero-junctions and Van der Waals …
resonant frequency of various BNNT and CNT-based hetero-junctions and Van der Waals …
Piezoelectric and elastic properties of multiwall boron-nitride nanotubes and their fibers: A molecular dynamics study
Piezoelectric and elastic properties of multiwall boron-nitride nanotubes are studied using a
classical molecular dynamics model with an incorporated strain-dependent dipole potential …
classical molecular dynamics model with an incorporated strain-dependent dipole potential …
A molecular dynamics study on the vibrational behavior of perfect and defective hybrid carbon boron-nitride heteronanotubes
S Haghighi, R Ansari, Y Keramati - Diamond and Related Materials, 2022 - Elsevier
In this paper, the free vibration of hybrid carbon boron-nitride heteronanotubes (CBNNTs) is
analyzed through molecular dynamics (MD) simulations. In the vibration analysis, various …
analyzed through molecular dynamics (MD) simulations. In the vibration analysis, various …
Improved tensile and buckling behavior of defected carbon nanotubes utilizing boron nitride coating–A molecular dynamic study
H Badjian, AR Setoodeh - Physica B: Condensed Matter, 2017 - Elsevier
Synthesizing inorganic nanostructures such as boron nitride nanotubes (BNNTs) have led to
immense studies due to their many interesting functional features such as piezoelectricity …
immense studies due to their many interesting functional features such as piezoelectricity …
Mechanical and vibrational behaviors of bilayer hexagonal boron nitride in different stacking modes
D Zhao, K Fang, Z Lian - Scientific Reports, 2024 - nature.com
Hexagonal boron nitride (h-BN) is a semiconductor material with a wide band gap, which
has great potential to serve as a nanoresonators in microelectronics and mass and force …
has great potential to serve as a nanoresonators in microelectronics and mass and force …
Beat vibration of hybrid boron nitride-carbon nanotubes–A new avenue to atomic-scale mass sensing
In this paper a beat phenomenon is reported in molecular dynamics simulations for vibrating
boron nitride-carbon nanotubes (BN-CNTs) and then analysed based on a continuum …
boron nitride-carbon nanotubes (BN-CNTs) and then analysed based on a continuum …