A simple method which combines the weight function technique and finite element results is used to obtain mode I stress intensity factor solutions for radially cracked cylinders subjected to a high internal pressure. The method is especially effective for cylinders having residual stresses due to a manufacturing pre-stress process to increase the maximum pressure the cylinder can contain and to improve the cylinder's useful life against fatigue and fracture. The method is quite general for various assumptions involving the plastic stress-strain relations, the yield condition, the strain-hardening, and the compressibility of the cylinder material
In this paper, the cracked thick-walled functionally graded cylinder has been analyzed using the fin...
In this paper, the cracked thick-walled functionally graded cylinder has been analyzed using the fin...
In this paper, the cracked thick-walled functionally graded cylinder has been analyzed using the fin...
The stress intensity factors were calculated by a three dimensional finite element method. The finit...
The paper addresses the calculation of mode I stress intensity factors for complete circumferential ...
This paper investigates the variations of mode I stress intensity factor (KI) for inner penny-shaped...
The objective of this study is to present the mode I stress intensity factor distribution (SIF) alon...
The objective of this study is to present the mode I stress intensity factor distribution (SIF) alon...
Closed form stress intensity factor of an arbitrarily located inner-surface circumferential crack in...
Closed form stress intensity factor of an arbitrarily located inner-surface circumferential crack in...
A simplified equation to directly calculate the stress intensity factor of an arbitrarily located ci...
An exact formulation of the plane elasticity problem for a hollow cylinder or a disk containing a ra...
A simplified equation to directly calculate the stress intensity factor of an arbitrarily located ci...
Flaws resulting from improper welding and forging are usually modeled as cracks in flat plates, holl...
An alternating method, in conjunction with the finite element method and a newly developed analytica...
In this paper, the cracked thick-walled functionally graded cylinder has been analyzed using the fin...
In this paper, the cracked thick-walled functionally graded cylinder has been analyzed using the fin...
In this paper, the cracked thick-walled functionally graded cylinder has been analyzed using the fin...
The stress intensity factors were calculated by a three dimensional finite element method. The finit...
The paper addresses the calculation of mode I stress intensity factors for complete circumferential ...
This paper investigates the variations of mode I stress intensity factor (KI) for inner penny-shaped...
The objective of this study is to present the mode I stress intensity factor distribution (SIF) alon...
The objective of this study is to present the mode I stress intensity factor distribution (SIF) alon...
Closed form stress intensity factor of an arbitrarily located inner-surface circumferential crack in...
Closed form stress intensity factor of an arbitrarily located inner-surface circumferential crack in...
A simplified equation to directly calculate the stress intensity factor of an arbitrarily located ci...
An exact formulation of the plane elasticity problem for a hollow cylinder or a disk containing a ra...
A simplified equation to directly calculate the stress intensity factor of an arbitrarily located ci...
Flaws resulting from improper welding and forging are usually modeled as cracks in flat plates, holl...
An alternating method, in conjunction with the finite element method and a newly developed analytica...
In this paper, the cracked thick-walled functionally graded cylinder has been analyzed using the fin...
In this paper, the cracked thick-walled functionally graded cylinder has been analyzed using the fin...
In this paper, the cracked thick-walled functionally graded cylinder has been analyzed using the fin...