Add to ORKGThe influence of the flaw shape on the variation of stress-intensity factors along the crack front is examined for longitudinal inner surface flaws in pressure vessels, and for corner cracks present at the intersection of a pressure vessel and a nozzle. For the inner surface flaw problem, the geometry of the pressure vessel considered is that of a commercial pressure vessel. The analyzed flaw shapes are those recom-mended by the ASME Boiler and Pressure Vessel Code (Section III, App. G, 1977). In the case of corner cracks at nozzle-pressure vessel junctions, natural flaw shapes obtained through experiments are considered. A fully three-dimensional linear elastic hybrid displacement finite element procedure was used to analyze these problems...
Abstract-An alternating method, in conjunction with the finite element method and a solution for mul...
In 1985 a four year research programme in elastic-plastic fracture mechanics was initiated within th...
In this paper, three-dimensional mixed-mode stress intensity factor solutions are obtained for defle...
Extensive xperimental results--based onthe frozen stress photoelasticity echnique for extracting str...
The evaluation of stress intensity factors for surface flaw problems and, in par-ticular, semi-ellip...
Photoelastic and finite element studies are being conducted to determine Mode I stress intensity fac...
Solutions of stress intensity factors for external and internal unpressurized and pressurized surfac...
An alternating method, in conjunction with the finite element method and a newly developed analytica...
The use of fracture mechanics techniques combining with Finite Element Analysis [F.E.A] in assessmen...
A problem of particular interest in pressure vessel technology is the calculation of accurate stress...
This paper deals with the finite element modeling of the pressure vessel with two artificial interna...
The development of the shape and size of a flaw in a pressure vessel is important in fitness-for-ser...
Pressure vessels can be subjected to various external local forces and moments acting in combination...
Pressure vessels can be subjected to various external local forces and moments acting in combination...
Pressure vessels can be subjected to various external local forces and moments acting in combination...
Abstract-An alternating method, in conjunction with the finite element method and a solution for mul...
In 1985 a four year research programme in elastic-plastic fracture mechanics was initiated within th...
In this paper, three-dimensional mixed-mode stress intensity factor solutions are obtained for defle...
Extensive xperimental results--based onthe frozen stress photoelasticity echnique for extracting str...
The evaluation of stress intensity factors for surface flaw problems and, in par-ticular, semi-ellip...
Photoelastic and finite element studies are being conducted to determine Mode I stress intensity fac...
Solutions of stress intensity factors for external and internal unpressurized and pressurized surfac...
An alternating method, in conjunction with the finite element method and a newly developed analytica...
The use of fracture mechanics techniques combining with Finite Element Analysis [F.E.A] in assessmen...
A problem of particular interest in pressure vessel technology is the calculation of accurate stress...
This paper deals with the finite element modeling of the pressure vessel with two artificial interna...
The development of the shape and size of a flaw in a pressure vessel is important in fitness-for-ser...
Pressure vessels can be subjected to various external local forces and moments acting in combination...
Pressure vessels can be subjected to various external local forces and moments acting in combination...
Pressure vessels can be subjected to various external local forces and moments acting in combination...
Abstract-An alternating method, in conjunction with the finite element method and a solution for mul...
In 1985 a four year research programme in elastic-plastic fracture mechanics was initiated within th...
In this paper, three-dimensional mixed-mode stress intensity factor solutions are obtained for defle...