Naslov (srp)

Oscilacije kompozitnih nanostruktura primenom teorija višeg reda

Autor

Despenić, Nikola, 1991-

Doprinosi

Janevski, Goran, 1970-
Pavlović, Ivan R., 1979-
Stojanović, Vladimir, 1983-
Mađarević, Damir, 1981-
Tomović, Aleksandar M., 1988-

Opis (srp)

In this doctoral dissertation, the oscillatory characteristics of nanobeams and nanotubes were analyzed, considering the influence of various parameters on the change in the fundamental circular frequency, critical temperature, and critical fluid flow velocity. The dynamic equations were derived using Hamilton's principle, and analytical and numerical methods were applied to solve them. Special attention was given to structures made of functionally graded materials, which are significant due to their variable mechanical properties. Using Eringen's lower- and higher-order nonlocal theory, as well as strain gradient theory, mathematical models of the studied structures were presented. The change in the fundamental circular frequency with temperature variation was analyzed. Special emphasis was placed on the change in the fundamental circular frequency, critical temperature, and critical fluid flow velocity, with changes in the volume fraction exponent, lower- and higher-order nonlocal parameters, and the length scale parameter, allowing for a deeper understanding of nonlocal effects on the change in the fundamental circular frequency. It was demonstrated that the nonlocal parameter and length scale parameter affect material stiffness differently, and thus have different impacts on the change in the circular frequency of nanostructures. The influence of the geometric coefficient on the change in the circular frequency of a non-uniform nanotube was considered. In the case of the non-uniform nanotube, the fluid flow velocity is expressed as a function of the geometric coefficient, allowing for the analysis of the change in the critical fluid flow velocity through the non-uniform nanotube with the variation of the geometric coefficient.

Opis (srp)

Biografija autora: list. 218-219. Bibliografija: list. 211-217. Datum odbrane: 27.03.2025. Theoretical and applied mechanics

Jezik

srpski

Datum

2025

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