The scaled boundary finite element method is developed for transient thermoelastic fracture analysis. To enable this, a set of novel shape functions are derived considering thermoelastic equilibrium. The salient features of the proposed framework are: (a) can be formulated on polygons with an arbitrary number of sides leading to flexible mesh generation and (b) facilitates an accurate and direct evaluation of the stress intensity factors from their definition without resorting to any post-processing techniques using relatively coarse meshes. Several numerical benchmark problems demonstrate the aforementioned features of the technique. © 2020 Elsevier Lt
This paper presents a method to improve the computational efficiency of the scaled boundary finite e...
A technique to evaluate the dynamic stress intensity factors and T-stress is developed by extending ...
An efficient methodology for automatic dynamic crack propagation simulations using polygon elements ...
The scaled boundary finite element method is developed for transient thermoelastic fracture analysis...
A novel polygon based numerical technique is formulated using the scaled boundary finite element met...
This study presents the development of the scaled boundary finite element method to model discrete c...
Crack propagation is modelled using scaled boundary polygons. The polygons discretise the computatio...
The polygon-based scaled boundary finite element method is applied to two finite fracture mechanics ...
Functionally graded materials are a relatively newclass of composite materialswhere its material pro...
In this paper, the recently developed scaled boundary polygons formulation for the evaluation of str...
A recently developed scaled boundary finite element formulation that can model the response of funct...
An automatic crack propagation modelling technique using polygon elements is presented. A simple alg...
A new algorithm for coupling boundary and finite element methods is developed for transient two dime...
The development and the application of the scaled boundary finite element method for fracture analys...
AbstractThe transient response of finite bimaterial plates with interface cracks is analyzed directl...
This paper presents a method to improve the computational efficiency of the scaled boundary finite e...
A technique to evaluate the dynamic stress intensity factors and T-stress is developed by extending ...
An efficient methodology for automatic dynamic crack propagation simulations using polygon elements ...
The scaled boundary finite element method is developed for transient thermoelastic fracture analysis...
A novel polygon based numerical technique is formulated using the scaled boundary finite element met...
This study presents the development of the scaled boundary finite element method to model discrete c...
Crack propagation is modelled using scaled boundary polygons. The polygons discretise the computatio...
The polygon-based scaled boundary finite element method is applied to two finite fracture mechanics ...
Functionally graded materials are a relatively newclass of composite materialswhere its material pro...
In this paper, the recently developed scaled boundary polygons formulation for the evaluation of str...
A recently developed scaled boundary finite element formulation that can model the response of funct...
An automatic crack propagation modelling technique using polygon elements is presented. A simple alg...
A new algorithm for coupling boundary and finite element methods is developed for transient two dime...
The development and the application of the scaled boundary finite element method for fracture analys...
AbstractThe transient response of finite bimaterial plates with interface cracks is analyzed directl...
This paper presents a method to improve the computational efficiency of the scaled boundary finite e...
A technique to evaluate the dynamic stress intensity factors and T-stress is developed by extending ...
An efficient methodology for automatic dynamic crack propagation simulations using polygon elements ...