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W2529125075 endingPage "96" @default.
W2529125075 startingPage "88" @default.
W2529125075 abstract "New torsional models of carbon nanotube in which axial velocity and the velocity gradient effect are separately considered on the basis of newly proposed nonlocal strain gradient theory are presented in this study. The nonlocal strain gradient theory developed from nonlocal theory contains additional strain gradient scale parameter representing the effect of high-order strain gradient besides the nonlocal scale parameter depicting interactions of neighboring particles. For torsional vibration of carbon nanotube considering axial velocity, the influence of axial velocity is included in kinetic energy. For that in view of velocity gradient effect, additional kinematic component which represents material particles in micro/nano-scale distinguishing those in macro-scale is involved in the kinetic energy. The governing equations are derived by Hamilton's principle and the high-order boundary conditions are also deduced simultaneously. As study case, fixed-fixed boundary condition is considered. The two scale parameters impacting on torsional frequencies are discussed in detail, meanwhile, comparisons of current model with other high-order non-classical and classical models, and the relations between axial velocity and torsional frequencies are shown in this paper. The relations between critical velocity and two scale parameters are also illustrated. Ultimately, the influences of velocity gradient effect on torsional frequencies are presented." @default.
W2529125075 created "2016-10-14" @default.
W2529125075 creator A5003529898 @default.
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W2529125075 creator A5053325739 @default.
W2529125075 creator A5069994405 @default.
W2529125075 creator A5087848706 @default.
W2529125075 date "2016-12-01" @default.
W2529125075 modified "2023-10-06" @default.
W2529125075 title "Torsional vibration of carbon nanotube with axial velocity and velocity gradient effect" @default.
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W2529125075 doi "https://doi.org/10.1016/j.ijmecsci.2016.09.036" @default.
W2529125075 hasPublicationYear "2016" @default.
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