Add to ORKGA material inhomogeneity in the direction of crack extension causes a difference between the near-tip crack driving force, Jtip, and the nominally applied far-field crack driving force, Jfar. This difference can be quantified by a material inhomogeneity term, Cinh, which is evaluated by a post-processing procedure to a conventional finite element stress analysis. The magnitude of the material inhomogeneity term is evaluated for cracks in an inhomogeneous welded joint made of a high-strength low-alloy steel. Both a crack proceeding from the under-matched (UM) to the over-matched (OM) and from the OM to the UM weld metal are treated. The effects of the inhomogeneity of the different material parameters (modulus of elasticity, yield strength, ...
The objective of this paper is to study the combined effects of weld metal undermatching and crack l...
The accuracy of the defect assessment methods for strength mismatched structures is directly related...
The current solutions in ASTM E1820 and E1921 for the calculation of the J-integral are not necessar...
The stress–strain conditions at the crack tip in dissimilar metal welded joints (DMWJ) are a critica...
Fracture of steel welded joints produced with one or two weld metals is analysed; the latter (double...
This paper presents the results of a comparative study on the application of CTOD and J design curve...
This paper presents numerical studies on strength mis-match effects in welded joints. Crack growth i...
The present paper presents the results of a comparative study on the application of CTOD- and J-desi...
Application of standardized fracture testing methods in heterogeneous welded joints might lead to ov...
This paper presents a case study, examining the influence of a sharp bimaterial interface on the eff...
Application of standardized fracture testing methods in heterogeneous welded joints might lead to ov...
In part I, accurate closed form solutions of mismatch yield loads were given in terms of strength mi...
Application of standardized fracture testing methods in heterogeneous welded joints might lead to ov...
Due to the particularity of welding processes, the mechanical properties of welded joint materials, ...
The mismatching constraint effect on crack propagation through the heat-affected zone (HAZ) in a wel...
The objective of this paper is to study the combined effects of weld metal undermatching and crack l...
The accuracy of the defect assessment methods for strength mismatched structures is directly related...
The current solutions in ASTM E1820 and E1921 for the calculation of the J-integral are not necessar...
The stress–strain conditions at the crack tip in dissimilar metal welded joints (DMWJ) are a critica...
Fracture of steel welded joints produced with one or two weld metals is analysed; the latter (double...
This paper presents the results of a comparative study on the application of CTOD and J design curve...
This paper presents numerical studies on strength mis-match effects in welded joints. Crack growth i...
The present paper presents the results of a comparative study on the application of CTOD- and J-desi...
Application of standardized fracture testing methods in heterogeneous welded joints might lead to ov...
This paper presents a case study, examining the influence of a sharp bimaterial interface on the eff...
Application of standardized fracture testing methods in heterogeneous welded joints might lead to ov...
In part I, accurate closed form solutions of mismatch yield loads were given in terms of strength mi...
Application of standardized fracture testing methods in heterogeneous welded joints might lead to ov...
Due to the particularity of welding processes, the mechanical properties of welded joint materials, ...
The mismatching constraint effect on crack propagation through the heat-affected zone (HAZ) in a wel...
The objective of this paper is to study the combined effects of weld metal undermatching and crack l...
The accuracy of the defect assessment methods for strength mismatched structures is directly related...
The current solutions in ASTM E1820 and E1921 for the calculation of the J-integral are not necessar...