Stress intensity factors for an embedded crack in a thick walled cylinder subjected to internal pressure

The concept of "load relief factor" is used to determine in an approximate manner stress intensity factors for a multiply-cracked plane and an axisymmetric body. To demonstrate the validity of the method, which utiliies known available solutions, it is tirst shown to conservatively agree, within eng

In this paper the steady state thermoelasticity problem in a thick-walled cylinder containing an internal axial semi-elliptical crack is solved analytically. Thermal and mechanical boundary conditions are prescribed on the inner and outer surfaces of the cylinder. The steady state solution of the th

A new theoretical model for reverse yielding in a high strength steel is used to obtain residual stresses in a closed-end thick-walled cylinder subjected to high internal pressure. The numerical results of residual hoop stresses are also obtained by using the isotropic and kinematical hardening mode