Torsion of cylindrically poroelasic circular shaft with radial inhomogeneity .some exact solutions for extruder
Subject Areas : Solid Mechanicsmohammad farid khansanami 1 , Faranak Khansanami 2
1 - Department of Mechanical Engineering, South Tehran Branch, Islamic Azad University, Tehran,
Iran
2 - Department of Engineering, Zanjan University, Zanjan, Iran
Keywords: Torsion, FGM and poroelastic shaft, Radial inhomogeneity, extruder,
Abstract :
Torsion of elastic and poroelastic circular shaft of radially inhomogeneous, cylindrically orthotropic materials is studied with emphasis on the end effects example for extruder. To examine the conjecture of Saint-Venant’s torsion, we consider torsion of circular shaft with one end fixed and the other end free on which tractions that results in a pure torque are prescribed arbitrarily over the free end surface. Exact solutions that satisfy the prescribed boundary conditions point by point over the entire boundary surfaces are derived in a unified manner for cylindrically orthotropic shafts with or without radial inhomogeneity and for their coun- terparts of Saint-Venant’s torsion. Stress diffusion due to the end effect is examined in the light of the exact solutions.The present study enables us to assess Saint-Venant’s principle as applied to anisotropic, non-homogeneous poroelastic bodies in general and to evaluate the stress diffusion in torsion of radially inhomogeneous, cylindrically orthotropic cylinders in particular. The following conclusions can be drawn from the analysis.