The paper presents the results of experiments designed to point out the role of interlaminar stress on the bending failure of thick composite laminates with geometrical variations and plies discontinuities. A numerical approach is developed using the HKS/Abaqus Explicit code in order to predict interlaminar damage nucleation and propagation in thick laminates with explicit finite element analyses. Non-linear constitutive laws are applied to model inelastic mechanisms in the interlaminar layers as well as in the plies of the laminate. The numericalexperimental correlations show that the proposed numerical technique can model complex three dimensional stress states in the laminate as well as the damage development and its effect on failure mo...
In this paper, the shear behaviour of a stiffened composite panel with a notch has been numerically ...
A progressive failure methodology is developed and demonstrated to simulate the initiation and mater...
The damage phenomenology of composite laminate is extremely complex and may involve different geomet...
The paper presents the results of experiments designed to point out the role of interlaminar stress ...
The paper presents the application of a numerical approach to evaluate both the onset as well the pr...
Design and manufacture of a variable thickness composite laminate such as a helicopter yoke involves...
A computationally efficient technique for the analysis of delamination in composite structures with ...
The laminate load bearing capability is often compromised by the interlaminar failure even though th...
Three-dimensional effective moduli are used in the analysis of thick laminates consisting of a large...
Despite their high specific stiffness and strength, laminated composite materials, e. g. fibre-reinf...
AbstractThe laminate load bearing capability is often compromised by the interlaminar failure even t...
A multi-scale model validated with out-of-plane shear testing is presented to analyse thick composit...
In design with composite materials, the capability of tailoring the properties of the structure with...
In this paper, the shear behaviour of a stiffened composite panel with a notch has been numerically ...
A progressive failure methodology is developed and demonstrated to simulate the initiation and mater...
The damage phenomenology of composite laminate is extremely complex and may involve different geomet...
The paper presents the results of experiments designed to point out the role of interlaminar stress ...
The paper presents the application of a numerical approach to evaluate both the onset as well the pr...
Design and manufacture of a variable thickness composite laminate such as a helicopter yoke involves...
A computationally efficient technique for the analysis of delamination in composite structures with ...
The laminate load bearing capability is often compromised by the interlaminar failure even though th...
Three-dimensional effective moduli are used in the analysis of thick laminates consisting of a large...
Despite their high specific stiffness and strength, laminated composite materials, e. g. fibre-reinf...
AbstractThe laminate load bearing capability is often compromised by the interlaminar failure even t...
A multi-scale model validated with out-of-plane shear testing is presented to analyse thick composit...
In design with composite materials, the capability of tailoring the properties of the structure with...
In this paper, the shear behaviour of a stiffened composite panel with a notch has been numerically ...
A progressive failure methodology is developed and demonstrated to simulate the initiation and mater...
The damage phenomenology of composite laminate is extremely complex and may involve different geomet...
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