Add to ORKGIn this paper fatigue crack propagation in an aluminium alloy is studied using an in situ SEM technique. It is demonstrated that crack propagation is strongly dependent on the local conditions around the crack tip and that the nominal stress intensity factor is only an averaging parameter. It is also shown that the crack propagates mainly through a single slip mechanism and by joining of micro cracks
The work presents a summary of previous studies on fatigue crack propagation within various Aluminum...
The paper presents results of SEM analysis of fatigue fracture surface of thin-walled tubular specim...
In this paper, the in-situ scanning electron microscope (SEM) and optical microscopy experiments are...
In-situ scanning electron microscopy (SEM) testing based on a small time scale is proposed to integr...
The fatigue crack propagation rate is influenced by various mechanisms at the very vicinity of the c...
Fatigue crack propagation has been observed for a number of commercial aluminium alloys. Comparable ...
Abstract In this paper, the existence of crack closure and its sufficiency for crack growth predicti...
The propagation of a semi-elliptical crack in the bulk of an ultrafine-grained Al-Li alloy has been ...
This paper presents the results of an experimental investigation on surface contact fatigue of AA608...
In situ scanning electron microscopy three-point bending test was employed in this study to investig...
The surface slip structure produced by fatigue deformation in aluminum and aluminum- 1 magnesium all...
The microscopic morphology of fatigue crack initiation and propagation behavior was investigated for...
Highlights - The influence of 30mm and 55mm sheet thickness on fatigue propagation behavior (includi...
The mechanism of shear mode fatigue crack growth in pure aluminum was investigated using pre-cracked...
This paper presents an assessment on fatigue crack propagation (FCG) behavior and fractography obser...
The work presents a summary of previous studies on fatigue crack propagation within various Aluminum...
The paper presents results of SEM analysis of fatigue fracture surface of thin-walled tubular specim...
In this paper, the in-situ scanning electron microscope (SEM) and optical microscopy experiments are...
In-situ scanning electron microscopy (SEM) testing based on a small time scale is proposed to integr...
The fatigue crack propagation rate is influenced by various mechanisms at the very vicinity of the c...
Fatigue crack propagation has been observed for a number of commercial aluminium alloys. Comparable ...
Abstract In this paper, the existence of crack closure and its sufficiency for crack growth predicti...
The propagation of a semi-elliptical crack in the bulk of an ultrafine-grained Al-Li alloy has been ...
This paper presents the results of an experimental investigation on surface contact fatigue of AA608...
In situ scanning electron microscopy three-point bending test was employed in this study to investig...
The surface slip structure produced by fatigue deformation in aluminum and aluminum- 1 magnesium all...
The microscopic morphology of fatigue crack initiation and propagation behavior was investigated for...
Highlights - The influence of 30mm and 55mm sheet thickness on fatigue propagation behavior (includi...
The mechanism of shear mode fatigue crack growth in pure aluminum was investigated using pre-cracked...
This paper presents an assessment on fatigue crack propagation (FCG) behavior and fractography obser...
The work presents a summary of previous studies on fatigue crack propagation within various Aluminum...
The paper presents results of SEM analysis of fatigue fracture surface of thin-walled tubular specim...
In this paper, the in-situ scanning electron microscope (SEM) and optical microscopy experiments are...