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Wind and Structures
  Volume 25, Number 4, October 2017 , pages 381-395
DOI: https://doi.org/10.12989/was.2017.25.4.381
 


Vibration and stability of embedded cylindrical shell conveying fluid mixed by nanoparticles subjected to harmonic temperature distribution
Maryam Shokravi and Nader Jalili

 
Abstract
    Nonlinear vibration and instability of cylindrical shell conveying fluid-nanoparticles mixture flow are studied in this article. The surrounding elastic medium is modeled by Pasternak foundation. Mixture rule is used for obtaining the effective viscosity and density of the fluid-nanoparticles mixture flow. The material properties of the elastic medium and cylindrical shell are assumed temperature-dependent. Employing first order shear deformation theory (FSDT), the motion equations are derived using energy method and Hamilton\'s principal. Differential quadrature method (DQM) is used for obtaining the frequency and critical fluid velocity. The effects of different parameters such as volume percent of nanoparticles, boundary conditions, geometrical parameters of cylindrical shell, temperature change, elastic foundation and fluid velocity are shown on the frequency and critical fluid velocity of the structure. Results show that with increasing volume percent of nanoparticles in the fluid, the frequency and critical fluid velocity will be increases.
 
Key Words
    cylindrical shell; instability; fluid-nanoparticles mixture flow; temperature-dependent; DQM
 
Address
Maryam Shokravi: Buein Zahra Technical University, Buein Zahra, Qazvin, Iran
Nader Jalili: Piezoactive Systems Laboratory, Department of Mechanical and Industrial Engineering, Northeastern University, Boston, Massachusetts 02115, USA
 

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