Add to ORKGA numerical study of the elastic-plastic mode-II fracture of adhesive joints is presented in this paper. A traction-separation law was used to simulate the mode-II interfacial fracture of adhesively-bonded end-notched flexure (E.N.F.) specimens loaded in three-point bending, with extensive plastic deformation accompanying failure. The fracture parameters for the traction-separation law were determined by comparing the numerical and experimental results for one particular geometry. These parameters were then used without further modification to simulate the fracture of other E.N.F. specimens with different geometries. It was found that the numerical predictions for the loads and deformation were in excellent agreement with the corresponding ...
This chapter summarizes the basic principles and definitions of fracture mechanics and gives an over...
Crack propagation along one of the interfaces between a thin ductile adhesive layer and the elastic ...
AbstractA new traction–separation law that represents the constitutive relation of a ductile adhesiv...
A general modeling approach is developed for analyzing the fracture of plastically-deforming adhesiv...
The cohesive zone model is used in the analysis of fracture of plastically-deforming adhesive joints...
Developing an understanding of unstable crack growth in the presence of plasticity is crucial for mo...
A mode-dependent embedded-process-zone (EPZ) model has been developed and used to simulate the mixed...
The end-notched flexure (ENF) specimen has often been employed to characterise the mode II fracture ...
The failure of adhesively-bonded joints, consisting of metallic adherends and epoxy-based structural...
AbstractThe interfacial fracture of adhesively bonded structures is a critical issue for the extensi...
This work deals with the development of a predictive model for the mode I failure of adhesively bond...
Interfacial failure in adhesive joints has been studied. It has been shown by previous researchers t...
ABSTRACT: The study focuses on using fracture mechanics to evaluate mixed-mode fracture properties...
AbstractThe nonlinear analytical solutions of an end notched flexure adhesive joint or fracture test...
A cohesive zone model (CZM) has been used in conjunction with both elastic and elastoplastic continu...
This chapter summarizes the basic principles and definitions of fracture mechanics and gives an over...
Crack propagation along one of the interfaces between a thin ductile adhesive layer and the elastic ...
AbstractA new traction–separation law that represents the constitutive relation of a ductile adhesiv...
A general modeling approach is developed for analyzing the fracture of plastically-deforming adhesiv...
The cohesive zone model is used in the analysis of fracture of plastically-deforming adhesive joints...
Developing an understanding of unstable crack growth in the presence of plasticity is crucial for mo...
A mode-dependent embedded-process-zone (EPZ) model has been developed and used to simulate the mixed...
The end-notched flexure (ENF) specimen has often been employed to characterise the mode II fracture ...
The failure of adhesively-bonded joints, consisting of metallic adherends and epoxy-based structural...
AbstractThe interfacial fracture of adhesively bonded structures is a critical issue for the extensi...
This work deals with the development of a predictive model for the mode I failure of adhesively bond...
Interfacial failure in adhesive joints has been studied. It has been shown by previous researchers t...
ABSTRACT: The study focuses on using fracture mechanics to evaluate mixed-mode fracture properties...
AbstractThe nonlinear analytical solutions of an end notched flexure adhesive joint or fracture test...
A cohesive zone model (CZM) has been used in conjunction with both elastic and elastoplastic continu...
This chapter summarizes the basic principles and definitions of fracture mechanics and gives an over...
Crack propagation along one of the interfaces between a thin ductile adhesive layer and the elastic ...
AbstractA new traction–separation law that represents the constitutive relation of a ductile adhesiv...