Add to ORKGCritical fiber-matrix (FM) interface strength parameters were determined using a micromechanics-based approach together with failure data from off-axis tension (OAT) tests. The ply stresses at failure for a range of off-axis angles were used as input to a micromechanics analysis that was performed using the personal computer-based MICSTRAN code. FM interface stresses at the failure loads were calculated for both the square and the diamond array models. A simple procedure was developed to determine which array had the more severe FM interface stresses and the location of these critical stresses on the interface. For the cases analyzed, critical FM interface stresses were found to occur with the square array model and were located at a point ...
An off-axis flexure (OAF) test was performed to measure ply strength under multiaxial stress states....
To characterize the fiber–matrix interface of a glass-fiber reinforced sheet molding compound (SMC),...
AbstractThe present study has focused on achieving a micromechanical understanding of the microbond ...
Fiber/matrix (F/M) cracking was analyzed to provide better understanding and guidance in developing ...
ABSTRACT: The micromechanics of failure was developed to predict the failure of continuous fiber rei...
Closed form techniques for calculating fiber matrix (FM) interface stresses, using repeating square ...
The failure locus a fiber-reinforced composite lamina, made up of 50 vol.% of carbon fibers embedded...
A micromechanics-based constituent progressive damage model was proposed in this study to predict ma...
AbstractA method for determining the in situ strength of fiber-reinforced laminas for three types of...
Failure mechanisms in fiber composites are a function of many parameters such as constituent propert...
A micromechanical approach can promote understanding of composite material failure mechanisms and in...
ABSTRACT: A micromechanics-based constituent progressive damage model was proposed in this study to ...
Presented are techniques based on 3-D finite-element analysis for the examination of continuous fibe...
Delamination initiation and propagation is a common failure mode in laminated composites that must ...
An analytical model was developed for predicting the response of laminated composites with or withou...
An off-axis flexure (OAF) test was performed to measure ply strength under multiaxial stress states....
To characterize the fiber–matrix interface of a glass-fiber reinforced sheet molding compound (SMC),...
AbstractThe present study has focused on achieving a micromechanical understanding of the microbond ...
Fiber/matrix (F/M) cracking was analyzed to provide better understanding and guidance in developing ...
ABSTRACT: The micromechanics of failure was developed to predict the failure of continuous fiber rei...
Closed form techniques for calculating fiber matrix (FM) interface stresses, using repeating square ...
The failure locus a fiber-reinforced composite lamina, made up of 50 vol.% of carbon fibers embedded...
A micromechanics-based constituent progressive damage model was proposed in this study to predict ma...
AbstractA method for determining the in situ strength of fiber-reinforced laminas for three types of...
Failure mechanisms in fiber composites are a function of many parameters such as constituent propert...
A micromechanical approach can promote understanding of composite material failure mechanisms and in...
ABSTRACT: A micromechanics-based constituent progressive damage model was proposed in this study to ...
Presented are techniques based on 3-D finite-element analysis for the examination of continuous fibe...
Delamination initiation and propagation is a common failure mode in laminated composites that must ...
An analytical model was developed for predicting the response of laminated composites with or withou...
An off-axis flexure (OAF) test was performed to measure ply strength under multiaxial stress states....
To characterize the fiber–matrix interface of a glass-fiber reinforced sheet molding compound (SMC),...
AbstractThe present study has focused on achieving a micromechanical understanding of the microbond ...