Add to ORKG\u3cp\u3eVarious experimental and theoretical researches have been shown the size-dependence behavior of the effective Young modulus (EYM) in the micron and sub-micron scales. One of the most accurate methods is the electrostatic pull-in instability (EPI) method that is based on the bending of the classical beam under the electrostatic force. In this paper, the modified couple stress theory (MCST) is employed to calculate the EYM of silicon nanocantilevers. The MCST compensates the inability of the classical continuum mechanic to predicting the size-dependent behavior of the nano-scale structures. Next, as a case study the EYM of silicon nanocantilevers have been calculated and results compared with classical EPI. The governing equation is ...
Abstract In this paper, analytical couple-stress solution for size-dependent large-amplitude vibrati...
The mechanical response of single-walled zigzag silicon-germanium nanotubes (SiGeNTs) under tensile ...
Developing new techniques for the prediction of materials behaviors in nano-scales has been an attra...
Various experimental and theoretical researches have been shown the size-dependence behavior of the ...
This letter presents the application of electrostatic pull-in instability to study the size-dependen...
The size-dependent elastic behavior of silicon nanocantilevers and nanowires, specifically the effec...
Recent measurements have indicated that the elastic behaviour of silicon nanocantilevers and nanowir...
This paper experimentally investigates the size-dependent effective Young's modulus (Eeff) of alumin...
We perform both classical molecular dynamics simulations and beam model calculations to investigate ...
Experiments on micro- and nano-mechanical systems (M/NEMS) have shown that their behavior under bend...
Analytical studies on the size effects of a simply-shaped beam fixed at both ends have successfully ...
Effective stiffness properties (D) of nanosized structural elements such as plates and beams differ ...
Herein, the pull-in instability of cantilever NEMS is studied considering the presence of dispersion...
[[abstract]]This research proposes a novel atomistic-continuum method (ACM) based on the finite elem...
Abstract—The Young’s modulus (E) of a material is a key parameter for mechanical engineering design....
Abstract In this paper, analytical couple-stress solution for size-dependent large-amplitude vibrati...
The mechanical response of single-walled zigzag silicon-germanium nanotubes (SiGeNTs) under tensile ...
Developing new techniques for the prediction of materials behaviors in nano-scales has been an attra...
Various experimental and theoretical researches have been shown the size-dependence behavior of the ...
This letter presents the application of electrostatic pull-in instability to study the size-dependen...
The size-dependent elastic behavior of silicon nanocantilevers and nanowires, specifically the effec...
Recent measurements have indicated that the elastic behaviour of silicon nanocantilevers and nanowir...
This paper experimentally investigates the size-dependent effective Young's modulus (Eeff) of alumin...
We perform both classical molecular dynamics simulations and beam model calculations to investigate ...
Experiments on micro- and nano-mechanical systems (M/NEMS) have shown that their behavior under bend...
Analytical studies on the size effects of a simply-shaped beam fixed at both ends have successfully ...
Effective stiffness properties (D) of nanosized structural elements such as plates and beams differ ...
Herein, the pull-in instability of cantilever NEMS is studied considering the presence of dispersion...
[[abstract]]This research proposes a novel atomistic-continuum method (ACM) based on the finite elem...
Abstract—The Young’s modulus (E) of a material is a key parameter for mechanical engineering design....
Abstract In this paper, analytical couple-stress solution for size-dependent large-amplitude vibrati...
The mechanical response of single-walled zigzag silicon-germanium nanotubes (SiGeNTs) under tensile ...
Developing new techniques for the prediction of materials behaviors in nano-scales has been an attra...