The dynamic mode-I energy release rate of cracks propagating along elastic interfaces in double-cantilever beams under high loading rates is derived analytically for the first time by accounting for structural vibration, wave propagation, and the Doppler effect along with the assumption of crack-tip energy conservation. The developed theory can be used to study the “stick-slip” crack propagation behavior commonly observed in experiments, a progression of crack initiation, propagation, arrest and re-initiation. In addition, the developed theory can be applied to measure crack initiation toughness as well as crack arrest toughness. The developed theory is verified against results from finite-element-method simulations of two experimental case...
The analytical theory of mode-I delamination propagation in double cantilever beams (DCBs) under hig...
This experimental study investigates the dynamic decohesion of inclined interfaces between aluminum ...
This paper is concerned with energy release rate for dynamic steady state crack problems in elastic ...
Dynamic interfacial fracture is the branch of fracture mechanics that considers the fracture behavio...
A problem of a dynamically growing crack, which is approaching an interface between the two elastic ...
The dynamic energy release rate (ERR) is derived for a delamination on the interface between a parti...
Analytical theory for the dynamic delamination behavior of a double cantilever beam (DCB) under high...
The dynamic energy release rate (ERR) of a stationary crack in a double cantilever beam (DCB) under ...
Double-cantilever beams (DCBs) are widely used to study mode-I fracture behavior and to measure mode...
Assessment of the energy release rate (ERR) of layered material structures with account for dynamic ...
This paper is concerned with the steady-state propagation of an antiplane semi-infinite crack in cou...
Dynamic fracture criteria based on experimental observations are proposed for subsonic crack growth ...
The aim of this study is the analysis of the dynamic crack propagation criteria in materials under i...
The focus of the article is on fracture criteria for dynamic crack propagation in elastic materials ...
The analytical theory of mode-I delamination propagation in double cantilever beams (DCBs) under hig...
This experimental study investigates the dynamic decohesion of inclined interfaces between aluminum ...
This paper is concerned with energy release rate for dynamic steady state crack problems in elastic ...
Dynamic interfacial fracture is the branch of fracture mechanics that considers the fracture behavio...
A problem of a dynamically growing crack, which is approaching an interface between the two elastic ...
The dynamic energy release rate (ERR) is derived for a delamination on the interface between a parti...
Analytical theory for the dynamic delamination behavior of a double cantilever beam (DCB) under high...
The dynamic energy release rate (ERR) of a stationary crack in a double cantilever beam (DCB) under ...
Double-cantilever beams (DCBs) are widely used to study mode-I fracture behavior and to measure mode...
Assessment of the energy release rate (ERR) of layered material structures with account for dynamic ...
This paper is concerned with the steady-state propagation of an antiplane semi-infinite crack in cou...
Dynamic fracture criteria based on experimental observations are proposed for subsonic crack growth ...
The aim of this study is the analysis of the dynamic crack propagation criteria in materials under i...
The focus of the article is on fracture criteria for dynamic crack propagation in elastic materials ...
The analytical theory of mode-I delamination propagation in double cantilever beams (DCBs) under hig...
This experimental study investigates the dynamic decohesion of inclined interfaces between aluminum ...
This paper is concerned with energy release rate for dynamic steady state crack problems in elastic ...