AbstractExperimental simulations of dynamic crack growth past inclusions of two different elastic moduli, stiff (glass) and compliant (polyurethane) relative to the matrix (epoxy), are carried out in a 2D setting. Full-field surface deformations are mapped in the crack–inclusion vicinity optically. The crack growth behavior as a function of inclusion–matrix interfacial strength and the inclusion location relative to the crack is studied under stress-wave loading conditions. An ultra high-speed rotating mirror-type digital camera is used to record random speckle patterns in the crack–inclusion vicinity to quantify in-plane displacement fields. The crack-tip deformation histories from the time of impact until complete fracture are mapped and ...
The effects of a process zone on toughness and on R-curve behavior were investigated for a model, ru...
One inevitable effect of adding soft rubber particles to a rigid polymer is that its yield stress, σ...
Polymer composites are engineered materials widely being used and yet not completely understood for ...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
The fracture toughness and toughening mechanism of two epoxy matrices containing varying concentrati...
A search of the literature has shown that a large number of empirical models exist for predicting th...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
The effectiveness of rubber interlayers between inorganic particles and polymer matrix for toughenin...
Mechanical testing and surface fractography were used to characterize the fracture of E-glass fiber ...
The incorporation of inorganic particles into polymeric matrices is a widely used method for toughen...
The present work is focused on improving mode I and mode II delamination resistance of glass/epoxy c...
Dynamic crack behaviors at glass interfaces were investigated to understand dynamic failure mechanis...
The axisym. finite element method was used to analyze the stress situation near the tip of a curvili...
Due to the inherent brittleness of the commonly used thermoset polymer matrices and glass or carbon ...
Composite material failure mechanism is linked to fundamental problem of matrix crack interacting\ud...
The effects of a process zone on toughness and on R-curve behavior were investigated for a model, ru...
One inevitable effect of adding soft rubber particles to a rigid polymer is that its yield stress, σ...
Polymer composites are engineered materials widely being used and yet not completely understood for ...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
The fracture toughness and toughening mechanism of two epoxy matrices containing varying concentrati...
A search of the literature has shown that a large number of empirical models exist for predicting th...
The problem of toughening heterogeneous materials with a stiff matrix and compliant inclusions is in...
The effectiveness of rubber interlayers between inorganic particles and polymer matrix for toughenin...
Mechanical testing and surface fractography were used to characterize the fracture of E-glass fiber ...
The incorporation of inorganic particles into polymeric matrices is a widely used method for toughen...
The present work is focused on improving mode I and mode II delamination resistance of glass/epoxy c...
Dynamic crack behaviors at glass interfaces were investigated to understand dynamic failure mechanis...
The axisym. finite element method was used to analyze the stress situation near the tip of a curvili...
Due to the inherent brittleness of the commonly used thermoset polymer matrices and glass or carbon ...
Composite material failure mechanism is linked to fundamental problem of matrix crack interacting\ud...
The effects of a process zone on toughness and on R-curve behavior were investigated for a model, ru...
One inevitable effect of adding soft rubber particles to a rigid polymer is that its yield stress, σ...
Polymer composites are engineered materials widely being used and yet not completely understood for ...