Add to ORKGA model has been developed to predict short crack fatigue life in the fusion zone of Metal Inert Gas (MIG) welded 2024-T351, based on the observed propensity for complex, multiple cracking processes in this region. To initiate cracks, a Monte-Carlo method has been used, based on the probability of initiation at interdendritic defects derived from the experimental observations. Short crack propagation simulation has been achieved via a microstructurally sensitive approach using continuous dislocation distribution methods. Different geometrical conditions to define crack shielding or crack coalescence have also been identified, along with a first order estimate of crack closure effects and associated influences of residual stress on crack gro...
AbstractThis paper presents a mechanism based approach for lifetime prediction of welded joints, sub...
Many catastrophic failures of metallic structures were found to originate from fatigue damages in lo...
ABSTRACT: We simulate in this article for multiple cracking in ANSI 304 stainless steel under therma...
A model has been developed to predict short crack fatigue life in the fusion zone of Metal Inert Ga...
Short crack fatigue behaviour of a metal inert gas (MIG) welded 2024-T351 aluminium alloy has been s...
Fatigue behaviour of welded joints is investigated, in terms of welded joint geometry and the fatigu...
This paper gives an overview on recent research results of the Darmstadt group inside a project call...
WOSInternational audienceThis work deals with the fatigue behaviour of S355NL steel welded joints cl...
The present study is directed to the nucleation of micro cracks in polycrystalline metals due to fat...
In aerospace industry and other major mechanical industry systems, engineering components that are s...
In the present study a numerical model to simulate the initiation growth of fatigue cracks in welded...
The research dealed with in this contribute targets a new approach to enable low cycle...
In this study, a Monte Carlo method (MCM) was applied on the fatigue crack growth rate (FCGR) curves...
International audienceA methodology is described and evaluated for the numerical prediction of the l...
This paper involves the numerical analysis of fatigue behaviour of welded joints made of steel SA-38...
AbstractThis paper presents a mechanism based approach for lifetime prediction of welded joints, sub...
Many catastrophic failures of metallic structures were found to originate from fatigue damages in lo...
ABSTRACT: We simulate in this article for multiple cracking in ANSI 304 stainless steel under therma...
A model has been developed to predict short crack fatigue life in the fusion zone of Metal Inert Ga...
Short crack fatigue behaviour of a metal inert gas (MIG) welded 2024-T351 aluminium alloy has been s...
Fatigue behaviour of welded joints is investigated, in terms of welded joint geometry and the fatigu...
This paper gives an overview on recent research results of the Darmstadt group inside a project call...
WOSInternational audienceThis work deals with the fatigue behaviour of S355NL steel welded joints cl...
The present study is directed to the nucleation of micro cracks in polycrystalline metals due to fat...
In aerospace industry and other major mechanical industry systems, engineering components that are s...
In the present study a numerical model to simulate the initiation growth of fatigue cracks in welded...
The research dealed with in this contribute targets a new approach to enable low cycle...
In this study, a Monte Carlo method (MCM) was applied on the fatigue crack growth rate (FCGR) curves...
International audienceA methodology is described and evaluated for the numerical prediction of the l...
This paper involves the numerical analysis of fatigue behaviour of welded joints made of steel SA-38...
AbstractThis paper presents a mechanism based approach for lifetime prediction of welded joints, sub...
Many catastrophic failures of metallic structures were found to originate from fatigue damages in lo...
ABSTRACT: We simulate in this article for multiple cracking in ANSI 304 stainless steel under therma...