Sentence examples for effects of surface elasticity from inspiring English sources

Analytical relations are given for the natural frequency of nanowires by accounting for the effects of surface elasticity, residual surface tension, and transverse shear deformation.

Further, if the first-order cell wall thickness is at the nanometer scale, the elastic properties of a hierarchical honeycomb are not only size dependent owing to the effects of surface elasticity and initial stresses, but are also tunable.

The effects of surface elasticity and surface tension on the stress field near nanosized surface asperities having at least one dimension in the range 1 100  nm is investigated.

Analytical relations are given for the critical force of axial buckling of nanowires by accounting for the effects of surface elasticity, residual surface tension, and transverse shear deformation.

Therefore, for smaller nanowire heights in the nanometer range, the effects of surface elasticity, piezoelectricity, and shear deformation should be taken into consideration so that more accurate results are obtained.

We consider the effect of surface elasticity on an interface crack between two dissimilar anisotropic elastic half-planes under generalized plane strain deformation.

Furthermore, the effect of surface elasticity, residual surface tension and length-scale on the free vibration is examined.

The concept of surface non-local elasticity was proposed and its physical interpretation discussed to explain the combined effect of surface elasticity and non-local elasticity.

A method of using the shifts of the beam resonant frequencies to determine the unknown parameters of nonlocal effects together with other effects such as surface elasticity, surface stress and residual stress is presented.

In this study, we investigated the large deformation behavior of a nanowire in consideration of its surface effects (surface elasticity and residual surface stress).

It is well known that resonant frequency shift is mainly attributed to the mass of molecules involved in molecular interactions (e.g. proteolysis) rather than any other effects such as surface elasticity of molecular monolayer (e.g. PEG-GFLG immobilized on the cantilever surface).