AbstractIn this paper, a numerical procedure, incorporated with the finite element method, is developed for calculation of the mixed-mode stress intensity factors along a 3D curved crack with non-planar surfaces. The approach is formulated by modifying the concept of the Jk- and GIII-integrals. Note that the property of path-independence for curved cracks does not hold in a manner as that for straight cracks and needs to be properly modified. As a consequence, the near-front region is always included in the integration. An appropriate numerical method is therefore developed for simulating the associated singular behavior. Since no extra auxiliary solutions are required for the computation, the proposed method appears to be versatile and can...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...
AbstractIn this paper, a numerical procedure, incorporated with the finite element method, is develo...
AbstractA simplified strategy based on the interaction energy integral is implemented in the finite ...
This paper presents direct computations of 3-D fracture parameters including stress intensity factor...
In this paper, the hypersingular integral equation method (HIEM) is applied to calculate the stress ...
In this paper, the hypersingular integral equation method (HIEM) is applied to calculate the stress ...
In this work, we present and prove results underlying a method which uses functionals derived from t...
In this work, we present and prove results underlying a method which uses functionals derived from t...
AbstractA simplified strategy based on the interaction energy integral is implemented in the finite ...
A path‐independent integral is introduced for calculating stress intensity factors. The derivation o...
A path‐independent integral is introduced for calculating stress intensity factors. The derivation o...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...
In this paper, a technique to determine complicated stress intensity factors on three-dimensional co...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...
AbstractIn this paper, a numerical procedure, incorporated with the finite element method, is develo...
AbstractA simplified strategy based on the interaction energy integral is implemented in the finite ...
This paper presents direct computations of 3-D fracture parameters including stress intensity factor...
In this paper, the hypersingular integral equation method (HIEM) is applied to calculate the stress ...
In this paper, the hypersingular integral equation method (HIEM) is applied to calculate the stress ...
In this work, we present and prove results underlying a method which uses functionals derived from t...
In this work, we present and prove results underlying a method which uses functionals derived from t...
AbstractA simplified strategy based on the interaction energy integral is implemented in the finite ...
A path‐independent integral is introduced for calculating stress intensity factors. The derivation o...
A path‐independent integral is introduced for calculating stress intensity factors. The derivation o...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...
In this paper, a technique to determine complicated stress intensity factors on three-dimensional co...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...
International audienceThe 2D stress intensity factor at the tip of a crack plays an essential role i...