Size-Dependent Elastic Properties of Ultra-Thin Objects Containing a Nano-Inclusion or a Nano-Inhomogeneity, Ph.D. Dissertation Sharif University of Technology ; Mohammadi Shoja, Hossein (Supervisor)
Abstract
The broad range of applicability of nano devices particularly in electronics, optoelectronics, and micro/ nano-electro- mechanical systems has drawn the attentions of the industrial and scientific communities of various disciplines. This work is devoted to study the effect of surface and interface elasticity in the analysis of the mechanical behavior of ultra-thin objects in the presence of some statical or dynamical loadings. Based on the fact that the surface-volume ratio increases in nano-scale, description of the behavior of such a small structure via usual classical theories, which generally neglect the surface/interface effect, ceases to hold. In the present study, first, a...
Cataloging briefSize-Dependent Elastic Properties of Ultra-Thin Objects Containing a Nano-Inclusion or a Nano-Inhomogeneity, Ph.D. Dissertation Sharif University of Technology ; Mohammadi Shoja, Hossein (Supervisor)
Abstract
The broad range of applicability of nano devices particularly in electronics, optoelectronics, and micro/ nano-electro- mechanical systems has drawn the attentions of the industrial and scientific communities of various disciplines. This work is devoted to study the effect of surface and interface elasticity in the analysis of the mechanical behavior of ultra-thin objects in the presence of some statical or dynamical loadings. Based on the fact that the surface-volume ratio increases in nano-scale, description of the behavior of such a small structure via usual classical theories, which generally neglect the surface/interface effect, ceases to hold. In the present study, first, a...
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