Add to ORKGAbstract. A 3D-FEM simulation of a fracture mechanics test is presented where the crack extension, Aa, is controlled by local Aa vs. load line displacement curves measured on different locations along the crack front. These data originate from an extensive multi-specimen JIc-test. The results of the 3D-analysis fit excellently to the experimental data and to the results of a modified two-layer model used in preceding studies. The current 3D-analysis supports the assumption that (after a short transition region) the local crack tip opening angle remains constant during growth. 1
WITHIN THE context of the small-strain approach, combined mode I and III near-tip fields of a statio...
The existence of three-dimensional effects at cracks has been known for many years, but understandin...
A local simulation principle is presented which allows the transfer of geometry-dependent fracture p...
A 3D-FEM simulation of a fracture mechanics test is presented where the crack extension, Δa, is cont...
A series of laboratory experiments on smooth and side-grooved compact specimens, as well as plates u...
In this paper detailed results of computational 3D fatigue crack growth simulations will be presente...
Crack closure concept has been widely used to explain different issues of fatigue crack propagation....
ABSTRACT. Crack closure concept has been widely used to explain different issues of fatigue crack pr...
Variations in the J resistance curves obtained for the same material with different specimen geometr...
In the present paper, the extent of surface regions in cracked bodies subjected to mode-I loading wa...
A common technique to evaluate load paths in complex structures is to perform FE-calculations with r...
Analysis of crack tip stress field is important in determining of the integrity of structures under ...
Large deformation finite element analysis has been carried out to investigate the stress-strain fiel...
The continuous growth of 3D cracks under cyclic loading conditions is considered within a discrete s...
The existence of three-dimensional effects at cracks has been known for many years, but understandin...
WITHIN THE context of the small-strain approach, combined mode I and III near-tip fields of a statio...
The existence of three-dimensional effects at cracks has been known for many years, but understandin...
A local simulation principle is presented which allows the transfer of geometry-dependent fracture p...
A 3D-FEM simulation of a fracture mechanics test is presented where the crack extension, Δa, is cont...
A series of laboratory experiments on smooth and side-grooved compact specimens, as well as plates u...
In this paper detailed results of computational 3D fatigue crack growth simulations will be presente...
Crack closure concept has been widely used to explain different issues of fatigue crack propagation....
ABSTRACT. Crack closure concept has been widely used to explain different issues of fatigue crack pr...
Variations in the J resistance curves obtained for the same material with different specimen geometr...
In the present paper, the extent of surface regions in cracked bodies subjected to mode-I loading wa...
A common technique to evaluate load paths in complex structures is to perform FE-calculations with r...
Analysis of crack tip stress field is important in determining of the integrity of structures under ...
Large deformation finite element analysis has been carried out to investigate the stress-strain fiel...
The continuous growth of 3D cracks under cyclic loading conditions is considered within a discrete s...
The existence of three-dimensional effects at cracks has been known for many years, but understandin...
WITHIN THE context of the small-strain approach, combined mode I and III near-tip fields of a statio...
The existence of three-dimensional effects at cracks has been known for many years, but understandin...
A local simulation principle is presented which allows the transfer of geometry-dependent fracture p...