Off-plane concentric penny-shaped crack in a finite cylinder under arbitrary torsion

In this article, we shall provide the mathematical analytical method for treating the problem of a concentric penny-shaped crack off the middle plane of a finite orthotropic cylinder for mode III. Without the traditional assumption that the cracked-body is infinite, the general solution to the mixed

The general solution of the stress intensity factor of a finite cylinder containing a concentric penny-shaped crack under torsion is obtained by use of the Hankel transform and Fourier series in this paper. It is easily verified that the results of a penny-shaped crack in an infinite long cylinder a

## Abatrect-With the aid of the basic theorem of the Hankel transform and Fourier series, the general solution of the stress intensity factor of a concentric penny-shaped crack in a finite orthotropic cylinder under torsion, is obtained in this study. The result of the mixed boundary value problem

Abstrat-By using the Hankel transform and the Fourier series, the stress intensity factor of a concentric penny-shaped crack in a finite long cylinder of a finite radius for mode III is determined. It is proved that the concentric penny-shaped cracks in an infinite long cylinder and in an infinite c