AbstractA three-dimensional multi-fibre multi-layer micromechanical finite element model was developed for the prediction of mechanical behaviour and damage response of composite laminates. Material response and micro-scale damage mechanism of cross-ply, [0/90]ns, and angle-ply, [±45]ns, glass-fibre/epoxy laminates were captured using multi-scale modelling via computational micromechanics. The framework of the homogenization theory for periodic media was used for the analysis of the proposed ‘multi-fibre multi-layer representative volume element’ (M2RVE). Each layer in M2RVE was represented by a unit cube with multiple randomly distributed, but longitudinally aligned, fibres of equal diameter and with a volume fraction corresponding to that...
A three-dimensional multi-scale computational homogenisation framework was developed for the predict...
A new micromechanical damage model accounting for progressive interface debonding is developed for c...
Predicting the strength of composite laminates subjected to complex multi-axial loading based on the...
AbstractA three-dimensional multi-fibre multi-layer micromechanical finite element model was develop...
Microscale damage mechanism of the multi-layer composite laminates is one of the active areas of res...
A three-dimensional multi-scale computational homogenisation framework is developed for the predicti...
A three-dimensional multi-scale computational homogenisation framework is developed for the predicti...
AbstractA three-dimensional multi-scale computational homogenisation framework is developed for the ...
Fibre reinforced composites exhibit a gradual damage accumulation to failure, with a multitude of hi...
This thesis describes the investigation and development of damage modelling for composites materials...
peer-reviewedFibre reinforced composites exhibit a gradual damage accumulation to failure, with a m...
AbstractA three-dimensional multi-scale computational homogenisation framework is developed for the ...
Multi-Scale Continuum Mechanics Modelling of Fiber-Reinforced Polymer Composites provides a comprehe...
A three-dimensional multi-scale computational homogenisation framework was developed for the predict...
AbstractIn this paper, a meso-scale repeated unit cell model for a general [θ]n angle-ply laminate i...
A three-dimensional multi-scale computational homogenisation framework was developed for the predict...
A new micromechanical damage model accounting for progressive interface debonding is developed for c...
Predicting the strength of composite laminates subjected to complex multi-axial loading based on the...
AbstractA three-dimensional multi-fibre multi-layer micromechanical finite element model was develop...
Microscale damage mechanism of the multi-layer composite laminates is one of the active areas of res...
A three-dimensional multi-scale computational homogenisation framework is developed for the predicti...
A three-dimensional multi-scale computational homogenisation framework is developed for the predicti...
AbstractA three-dimensional multi-scale computational homogenisation framework is developed for the ...
Fibre reinforced composites exhibit a gradual damage accumulation to failure, with a multitude of hi...
This thesis describes the investigation and development of damage modelling for composites materials...
peer-reviewedFibre reinforced composites exhibit a gradual damage accumulation to failure, with a m...
AbstractA three-dimensional multi-scale computational homogenisation framework is developed for the ...
Multi-Scale Continuum Mechanics Modelling of Fiber-Reinforced Polymer Composites provides a comprehe...
A three-dimensional multi-scale computational homogenisation framework was developed for the predict...
AbstractIn this paper, a meso-scale repeated unit cell model for a general [θ]n angle-ply laminate i...
A three-dimensional multi-scale computational homogenisation framework was developed for the predict...
A new micromechanical damage model accounting for progressive interface debonding is developed for c...
Predicting the strength of composite laminates subjected to complex multi-axial loading based on the...