Iranian Journal of Mechanical Engineering Transactions of ISME

Iranian Journal of Mechanical Engineering Transactions of ISME

Thermoelastic Analysis of Rotating FGM Cylindrical Vessels In an Elastic Medium

Authors
Hamid Reza Bagheri Tadi 1
Yaser Kiani 2
1 دانشگاه شهرکرد
2 Sharekord University
Abstract
In the present research, stress analysis of a functionally graded material cylindrical pressure vessel subjected to the simultaneous action of thermal loading, rotation and internal pressure is performed. Also it is assumed that vessel in located in an elastic medium which is designated according to the Winkler model. Except for Poisson’s ratio, all of the thermomechanical properties of the vessel are assumed to follow a power law model and vary across the radius of the vessel. Heat conduction equation and Navier equation which govern the temperature and radial displacement distribution across the radius of vessel are established and solved analytically. Closed form expressions are obtained for temperature distribution, radial displacement profile, strains and stresses components in the vessel. Parametric studies are provided to explore the effects of rotation and foundation stiffness on the structural responses of the vessel. It is shown that, foundation stiffness, power law index of the properties and angular speed all affect the stresses and displacement components of the vessel, significantly.
Keywords
Cylindrical vessel
Functionally graded material
Navier equation
rotational inertia

Subjects

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Iranian Journal of Mechanical Engineering Transactions of ISME
Volume 20, Issue 3 - Serial Number 52
System Dynamics and Solid Mechanics
Autumn 2018
Pages 200-212

  • Receive Date 22 July 2017
  • Revise Date 24 October 2017
  • Accept Date 15 December 2018