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Advances in Nano Research
  Volume 7, Number 6, November 2019, pages 405-417

Cut out effect on nonlinear post-buckling behavior of FG-CNTRC micro plate subjected to magnetic field via FSDT
M. Jamali, T. Shojaee, B. Mohammadi and R. Kolahchi

Abstract     [Full Text]
    This research is devoted to study post-buckling analysis of functionally graded carbon nanotubes reinforced composite (FG-CNTRC) micro plate with cut out subjected to magnetic field and resting on elastic medium. The basic formulation of plate is based on first order shear deformation theory (FSDT) and the material properties of FG-CNTRCs are presumed to be changed through the thickness direction, and are assumed based on rule of mixture; moreover, nonlocal Eringen\'s theory is applied to consider the size-dependent effect. It is considered that the system is embedded in elastic medium and subjected to longitudinal magnetic field. Energy approach, domain decomposition and Rayleigh-Ritz methods in conjunction with Newton-Raphson iterative technique are employed to trace the post-buckling paths of FG-CNTRC micro cut out plate. The influence of some important parameters such as small scale effect, cut out dimension, different types of FG distributions of CNTs, volume fraction of CNTs, aspect ratio of plate, magnitude of magnetic field, elastic medium and biaxial load on the post-buckling behavior of system are calculated. With respect to results, it is concluded that the aspect ratio and length of square cut out have negative effect on postbuckling response of micro composite plate. Furthermore, existence of CNTs in system causes improvement in the post-buckling behavior of plate and different distributions of CNTs in plate have diverse response. Meanwhile, nonlocal parameter and biaxial compression load on the plate has negative effect on post-buckling response. In addition, imposing magnetic field increases the postbuckling load of the microstructure.
Key Words
    nonlocal nonlinear post-buckling; FG-CNTRC micro rectangular cut out plate; first order shear deformation plate theory; Newton-Raphson iterative technique; magnetic field
(1) M. Jamali, T. Shojaee, B. Mohammadi:
School of Mechanical Engineering, Iran University of Science and Technology, Tehran, Iran;
(2) R. Kolahchi:
Institute of Research and Development, Duy Tan University, Da Nang 550000, Vietnam.

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