Add to ORKGA new damage model based on a micromechanical analysis of cracked [+/-0deg/90deg(sub n)]s laminates subjected to multiaxial loads is proposed. The model predicts the onset and accumulation of transverse matrix cracks in uniformly stressed laminates, the effect of matrix cracks on the stiffness of the laminate, as well as the ultimate failure of the laminate. The model also accounts for the effect of the ply thickness on the ply strength. Predictions relating the elastic properties of several laminates and multiaxial loads are presented
ABSTRACT: A micromechanics-based constituent progressive damage model was proposed in this study to ...
A constitutive model of progressive matrix cracking in fibers reinforced laminated composite is deve...
A probabilistic strength-based predictive model for matrix crack evolution in a multi-directional (M...
A new damage model based on a micromechanical analysis of cracked [± θ / 90n ]s laminates subjected ...
A new damage model based on a micromechanical analysis of cracked [+/- Theta/90n]s laminates subject...
AbstractA method for determining the in situ strength of fiber-reinforced laminas for three types of...
A micromechanics-based constituent progressive damage model was proposed in this study to predict ma...
The problem of damage accumulation in laminated composite materials hasreceived much attention due t...
AbstractThis paper presents a synergistic methodology to analyze damage behavior in composite lamina...
Predicting the strength of composite laminates subjected to complex multi-axial loading based on the...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76816/1/AIAA-2001-1640-412.pd
An analytical model was developed for predicting the response of laminated composites with or withou...
A computational constitutive model is presented to predict matrix cracking evolution in laminates un...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77029/1/AIAA-2009-2545-493.pd
This paper proposes a multi-scale analysis technique based on the micromechanics of failure (MMF) to...
ABSTRACT: A micromechanics-based constituent progressive damage model was proposed in this study to ...
A constitutive model of progressive matrix cracking in fibers reinforced laminated composite is deve...
A probabilistic strength-based predictive model for matrix crack evolution in a multi-directional (M...
A new damage model based on a micromechanical analysis of cracked [± θ / 90n ]s laminates subjected ...
A new damage model based on a micromechanical analysis of cracked [+/- Theta/90n]s laminates subject...
AbstractA method for determining the in situ strength of fiber-reinforced laminas for three types of...
A micromechanics-based constituent progressive damage model was proposed in this study to predict ma...
The problem of damage accumulation in laminated composite materials hasreceived much attention due t...
AbstractThis paper presents a synergistic methodology to analyze damage behavior in composite lamina...
Predicting the strength of composite laminates subjected to complex multi-axial loading based on the...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76816/1/AIAA-2001-1640-412.pd
An analytical model was developed for predicting the response of laminated composites with or withou...
A computational constitutive model is presented to predict matrix cracking evolution in laminates un...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77029/1/AIAA-2009-2545-493.pd
This paper proposes a multi-scale analysis technique based on the micromechanics of failure (MMF) to...
ABSTRACT: A micromechanics-based constituent progressive damage model was proposed in this study to ...
A constitutive model of progressive matrix cracking in fibers reinforced laminated composite is deve...
A probabilistic strength-based predictive model for matrix crack evolution in a multi-directional (M...