peer-reviewedIn-situ micro-mechanical testing of small composite laminates has been carried out under SEM where video recordings allowed examination of the evolution of damage processes at the microscale. Samples are tested under three- and four-point bending to encourage failure under various combinations of normal and shear stresses. SEM micrographs of the distinct phases of failure are presented and their transitions described, from initial debonding at fibre-matrix interfaces, through to catastrophic failure. For [90/0]s laminates, the transverse crack density is varied by altering the thickness of the exterior 90◦ ply block. This influences the distance between evenly spaced transverse cracks, which allows the relationship between tran...
When studying mechanical behavior of structures made of laminated polymer composite materials, issue...
A micromechanical approach can promote understanding of composite material failure mechanisms and in...
In this work, stress- and fracture mechanics-based criteria are developed to predict initiation and ...
Fibre reinforced composites exhibit a gradual damage accumulation to failure, with a multitude of hi...
peer-reviewedIn laminated composite materials fibre-matrix debonding, as an initial damage mechanism...
Microscale damage mechanism of the multi-layer composite laminates is one of the active areas of res...
Establishing an understanding of the multiscale nature of progressive failure in laminated fiber-rei...
A micromechanics analytical model is developed for characterizing the fracture behaviour of a fibre ...
Experimental analyses of FRP composite laminates fail to predict and correlate the type and sequence...
Damage evolution within polymer matrix composites (PMCs) is difficult to characterize, as variabilit...
A numerical approach to model the nucleation and the progressive propagation of interlaminar damage ...
Delamination cracks in composite laminates may originate from manufacturing defects, lowenergy impac...
A robust multiscale scheme referred to as micro-macro method has been developed for the prediction o...
Various aspects of the effect of microstructural randomness exhibited by carbon fibre-reinforced cro...
Failure in laminated composite materials often initiates in the form of matrix fractures, namely, tr...
When studying mechanical behavior of structures made of laminated polymer composite materials, issue...
A micromechanical approach can promote understanding of composite material failure mechanisms and in...
In this work, stress- and fracture mechanics-based criteria are developed to predict initiation and ...
Fibre reinforced composites exhibit a gradual damage accumulation to failure, with a multitude of hi...
peer-reviewedIn laminated composite materials fibre-matrix debonding, as an initial damage mechanism...
Microscale damage mechanism of the multi-layer composite laminates is one of the active areas of res...
Establishing an understanding of the multiscale nature of progressive failure in laminated fiber-rei...
A micromechanics analytical model is developed for characterizing the fracture behaviour of a fibre ...
Experimental analyses of FRP composite laminates fail to predict and correlate the type and sequence...
Damage evolution within polymer matrix composites (PMCs) is difficult to characterize, as variabilit...
A numerical approach to model the nucleation and the progressive propagation of interlaminar damage ...
Delamination cracks in composite laminates may originate from manufacturing defects, lowenergy impac...
A robust multiscale scheme referred to as micro-macro method has been developed for the prediction o...
Various aspects of the effect of microstructural randomness exhibited by carbon fibre-reinforced cro...
Failure in laminated composite materials often initiates in the form of matrix fractures, namely, tr...
When studying mechanical behavior of structures made of laminated polymer composite materials, issue...
A micromechanical approach can promote understanding of composite material failure mechanisms and in...
In this work, stress- and fracture mechanics-based criteria are developed to predict initiation and ...