Add to ORKGIn this study, an approximate evaluation method for ductile fracture analysis of a circumferentially semi-elliptical-cracked pipe, subjected to combined bending and tension, was newly developed. This method can explicitly incorporate the contribution of both tension and bending and, also, based on an analytical procedure, put no limit on the crack shape. The eect of a growing crack is neglected and only the J-integral is evaluated. These methods were then veried by full-scale pipe fracture tests. For comparison purposes, a nite element method was employed. The results obtained from the present method are in good agreement with FEM results
A reference strain J-estimation formulation is developed to perform the fracture assessment of misal...
This report summarizes efforts to develop elastic and elastic-plastic fracture mechanics analyses fo...
The nuclear task in fracture mechanics is to determine the stress intensity factor. According to the...
Ductile fracture assessments of circumferentially through-wall cracked piping components performed o...
Ductile fracture assessments of circumferentially through-wall cracked piping components performed o...
This paper describes the J-integral evaluation methods for the case of multiple circumferential crac...
AbstractThis paper reports ductile fracture simulation and comparison with carbon steel test data of...
International audienceThe principal objective of this work is to analyze the severity of semi-ellipt...
The fracture assessment of a cracked component can provide a technical support for an effective main...
This paper describes a fracture assessment method for a pipe having multiple circumferential flaws. ...
AbstractThis work addresses a comparison between fully plastic solutions and the reference stress ap...
The present work attempts to investigate some aspects of the fracture behavior of cracked pipe bends...
AbstractIn this work, extended finite element method (XFEM) is used to evaluate the stress intensity...
Este trabalho apresenta um procedimento de avaliação para a determinação da Integral J e do CTOD par...
Linear elastic fracture mechanics has been widely employed for fracture analysis of cracked pipes. F...
A reference strain J-estimation formulation is developed to perform the fracture assessment of misal...
This report summarizes efforts to develop elastic and elastic-plastic fracture mechanics analyses fo...
The nuclear task in fracture mechanics is to determine the stress intensity factor. According to the...
Ductile fracture assessments of circumferentially through-wall cracked piping components performed o...
Ductile fracture assessments of circumferentially through-wall cracked piping components performed o...
This paper describes the J-integral evaluation methods for the case of multiple circumferential crac...
AbstractThis paper reports ductile fracture simulation and comparison with carbon steel test data of...
International audienceThe principal objective of this work is to analyze the severity of semi-ellipt...
The fracture assessment of a cracked component can provide a technical support for an effective main...
This paper describes a fracture assessment method for a pipe having multiple circumferential flaws. ...
AbstractThis work addresses a comparison between fully plastic solutions and the reference stress ap...
The present work attempts to investigate some aspects of the fracture behavior of cracked pipe bends...
AbstractIn this work, extended finite element method (XFEM) is used to evaluate the stress intensity...
Este trabalho apresenta um procedimento de avaliação para a determinação da Integral J e do CTOD par...
Linear elastic fracture mechanics has been widely employed for fracture analysis of cracked pipes. F...
A reference strain J-estimation formulation is developed to perform the fracture assessment of misal...
This report summarizes efforts to develop elastic and elastic-plastic fracture mechanics analyses fo...
The nuclear task in fracture mechanics is to determine the stress intensity factor. According to the...