Add to ORKGThe dynamic energy release rate (ERR) of a stationary crack in a double cantilever beam (DCB) under a constant applied opening rate at the free end is derived using beam dynamics, and completely analytical formulae are obtained. It is discovered that the dispersive propagation of flexural waves must be considered otherwise the contributions to the dynamic ERR from the higher-order vibration modes cannot be correctly captured. In addition, it is shown that the intact part of the DCB (ahead of the crack tip) can be replaced with a single vertical spring and a rotation constraint at the crack tip to significantly simplify the analytical modeling. The dynamic ERR is accurately captured in comparison to finite element method (FEM) simulations, i...
Cracks present in machine parts affect their vibrational behaviour like the fundamental frequency an...
A dynamic mode-I energy release rate (ERR) of a double cantilever beam (DCB) under impact from a str...
The analytical theory of mode-I delamination propagation in double cantilever beams (DCBs) under hig...
Assessment of the energy release rate (ERR) of layered material structures with account for dynamic ...
Dynamic interfacial fracture is the branch of fracture mechanics that considers the fracture behavio...
The dynamic energy release rate (ERR) is derived for a delamination on the interface between a parti...
The dynamic mode-I energy release rate of cracks propagating along elastic interfaces in double-cant...
To calculate the dynamic energy release rate of a crack is important for understanding a structure’s...
Double-cantilever beams (DCBs) are widely used to study mode-I fracture behavior and to measure mode...
Analytical theory for the dynamic delamination behavior of a double cantilever beam (DCB) under high...
Dynamic fracture analysis for the crack arrest phenomenon is performed by ordinary state-based perid...
A thorough program of 2D finite element method (FEM) simulations is carried out parametrically on a ...
The dynamic behaviour of a cracked beam is investigated by using the dynamic stiffness method throug...
In this article, the vibrational response of a cracked cantilevered beam to harmonic forcing is anal...
For the design of crashworthy structures, it is essential to understand the failure mechanisms of ...
Cracks present in machine parts affect their vibrational behaviour like the fundamental frequency an...
A dynamic mode-I energy release rate (ERR) of a double cantilever beam (DCB) under impact from a str...
The analytical theory of mode-I delamination propagation in double cantilever beams (DCBs) under hig...
Assessment of the energy release rate (ERR) of layered material structures with account for dynamic ...
Dynamic interfacial fracture is the branch of fracture mechanics that considers the fracture behavio...
The dynamic energy release rate (ERR) is derived for a delamination on the interface between a parti...
The dynamic mode-I energy release rate of cracks propagating along elastic interfaces in double-cant...
To calculate the dynamic energy release rate of a crack is important for understanding a structure’s...
Double-cantilever beams (DCBs) are widely used to study mode-I fracture behavior and to measure mode...
Analytical theory for the dynamic delamination behavior of a double cantilever beam (DCB) under high...
Dynamic fracture analysis for the crack arrest phenomenon is performed by ordinary state-based perid...
A thorough program of 2D finite element method (FEM) simulations is carried out parametrically on a ...
The dynamic behaviour of a cracked beam is investigated by using the dynamic stiffness method throug...
In this article, the vibrational response of a cracked cantilevered beam to harmonic forcing is anal...
For the design of crashworthy structures, it is essential to understand the failure mechanisms of ...
Cracks present in machine parts affect their vibrational behaviour like the fundamental frequency an...
A dynamic mode-I energy release rate (ERR) of a double cantilever beam (DCB) under impact from a str...
The analytical theory of mode-I delamination propagation in double cantilever beams (DCBs) under hig...