Add to ORKGComposite materials are characterized by extraordinary strength and stiffness properties which can be strongly affected by intralaminar and interlaminar failure modes. Among the different damages, delaminations can be considerably influenced by the fatigue induced material properties degradation. Indeed, delamination propagation phenomena could begin at a fairly low number of cycles, progressively leading to the growth of the delaminated area and to the decrease of the global structural stiffness until the structural catastrophic failure. In this paper, a numerical procedure for fatigue induced delamination simulation has been developed. The mechanical behaviour of composite panels under cyclic loading conditions have been numerically inves...
This paper presents a computational technique for the prediction of fatigue-driven delamination grow...
This paper presents a computational technique for the prediction of fatigue-driven delamination grow...
This paper presents a computational technique for the prediction of fatigue-driven delamination grow...
The development of numerical methodologies to investigate material damages is a crucial aspect of ae...
The development of numerical methodologies to investigate material damages is a crucial aspect of ae...
Interlaminar damage evolution is one of the topics of main interest for composite materials research...
Delamination evolution under cyclic loading is one of the most important research topics for the app...
Delamination evolution under cyclic loading is one of the most important research topics for the app...
In this paper, a numerical tool, able to mimic the delamination growth under cyclic loading conditio...
In this work, the delamination onset and propagation in composite panels with induced defects is num...
In this work, the delamination onset and propagation in composite panels with induced defects is num...
Mechanical fatigue, especially high-cycle fatigue, is a common cause of failure of aerospace structu...
One of the most critical aspects of composite structures is indeed associated to delamination pheno...
One of the most critical aspects of composite structures is indeed associated to delamination pheno...
In this work, an approach based on the Virtual Crack Closure Technique, included in the commercial f...
This paper presents a computational technique for the prediction of fatigue-driven delamination grow...
This paper presents a computational technique for the prediction of fatigue-driven delamination grow...
This paper presents a computational technique for the prediction of fatigue-driven delamination grow...
The development of numerical methodologies to investigate material damages is a crucial aspect of ae...
The development of numerical methodologies to investigate material damages is a crucial aspect of ae...
Interlaminar damage evolution is one of the topics of main interest for composite materials research...
Delamination evolution under cyclic loading is one of the most important research topics for the app...
Delamination evolution under cyclic loading is one of the most important research topics for the app...
In this paper, a numerical tool, able to mimic the delamination growth under cyclic loading conditio...
In this work, the delamination onset and propagation in composite panels with induced defects is num...
In this work, the delamination onset and propagation in composite panels with induced defects is num...
Mechanical fatigue, especially high-cycle fatigue, is a common cause of failure of aerospace structu...
One of the most critical aspects of composite structures is indeed associated to delamination pheno...
One of the most critical aspects of composite structures is indeed associated to delamination pheno...
In this work, an approach based on the Virtual Crack Closure Technique, included in the commercial f...
This paper presents a computational technique for the prediction of fatigue-driven delamination grow...
This paper presents a computational technique for the prediction of fatigue-driven delamination grow...
This paper presents a computational technique for the prediction of fatigue-driven delamination grow...