Techno Press
Techno Press

Steel and Composite Structures   Volume 28, Number 6, September25 2018, pages 749-758
DOI: http://dx.doi.org/10.12989/scs.2018.28.6.749
 
Free axial vibration analysis of axially functionally graded thick nanorods using nonlocal Bishop's theory
Reza Nazemnezhad and Kamran Kamali

 
Abstract     [Full Text]
    Free axial vibration of axially functionally graded (AFG) nanorods is studied by focusing on the inertia of lateral motions and shear stiffness effects. To this end, Bishop's theory considering the inertia of the lateral motions and shear stiffness effects and the nonlocal theory considering the small scale effect are used. The material properties are assumed to change continuously through the length of the AFG nanorod according to a power-law distribution. Then, nonlocal governing equation of motion and boundary conditions are derived by implementing the Hamilton's principle. The governing equation is solved using the harmonic differential quadrature method (HDQM), After that, the first five axial natural frequencies of the AFG nanorod with clamped-clamped end condition are obtained. In the next step, effects of various parameters like the length of the AFG nanorod, the diameter of the AFG nanorod, material properties, and the nonlocal parameter value on natural frequencies are investigated. Results of the present study can be useful in more accurate design of nano-electro-mechanical systems in which nanotubes are used.
 
Key Words
    nonlocal theory; Bishop's theory; axially functionally graded nanorod; axial vibration; jarmonic differential quadrature method
 
Address
(1) Reza Nazemnezhad:
School of Engineering, Damghan University, Damghan, Iran;
(2) Kamran Kamali:
Impact Research Laboratory, Department of Mechanical Engineering, Iran University of Science and Technology, Tehran, Iran;
(3) Kamran Kamali:
Department of Design, Fateh Sanat Kimia Company, Great Industrial Zone, Shiraz, Iran.
 

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