The general solution of a finite orthotropic cylinder with a concentric penny-shaped crack under torsion

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

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

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

Ah&act-A contemporary approach to the analysis of interface cracks in b&material cylinders using finite elements is presented. From results obtained with a commercial finite element code using regular and singular isoparametric elements, three fracture mechanics techniques are considered to study th

In this paper, it is proven once again that the stress intensity factor of a penny-shaped crack at the interface between two different layers in a transversely isotropic solid is independent of material constants, and that both K, and K, cannot appear at the same time if the interface crack is subje