Add to ORKGIn this work, fretting fatigue tests available in the literature are modeled using the extended finite element method (XFEM). The aim is to numerically evaluate the stress intensity factors (SIFs) for cracks of different lengths emanating at the end of the contact zone and to estimate the propagation life corresponding to each of the tests. This propagation life is combined with the initiation life calculated analytically using a multiaxial fatigue criterion (Fatemi-Socie), following a initiation-propagation approach for life estimation. The predicted lives are then compared with the reported experimental lives. It is shown that the consideration of the crack-contact interaction through the numerical models tends to improve the life estimat...
This paper summarises the research carried out to develop Finite Element (FE) modelling and predict...
International audienceA combined experimental and numerical study is presented in order to predict f...
International audienceA 2D X-FEM/LATIN numerical model (eXtended Finite Element Method/Large Time In...
Many mechanical components such as, bearing housings, flexible couplings and spines or orthopedic de...
AbstractIn this paper, the extended finite element method (X-FEM) is considered for the analysis of ...
Fretting fatigue is a complex tribological phenomenon that can cause premature failure of connected ...
In this work, the orientation and propagation of a crack in a fretting fatigue problem is analyzed n...
Fretting fatigue is a type of fatigue that may occur when two surfaces are in contact and subjected ...
In fatigue problems, an accurate estimation of the propagation direction is important for life predi...
This paper analyses the influence that the type of geometry used to obtain the stress/strain fields ...
International audienceIn this work, the finite elements method (FEM) is used to analyse the growth o...
In this article a new fretting fatigue life prediction model is presented. The model can be classifi...
AbstractA 2D X-FEM/LATIN numerical model (eXtended Finite Element Method/Large Time Increment method...
Fretting fatigue is a combination of two complex and serious mechanical phenomena, namely fretting a...
This work has been undertaken in the context of an international research cooperation between the Un...
This paper summarises the research carried out to develop Finite Element (FE) modelling and predict...
International audienceA combined experimental and numerical study is presented in order to predict f...
International audienceA 2D X-FEM/LATIN numerical model (eXtended Finite Element Method/Large Time In...
Many mechanical components such as, bearing housings, flexible couplings and spines or orthopedic de...
AbstractIn this paper, the extended finite element method (X-FEM) is considered for the analysis of ...
Fretting fatigue is a complex tribological phenomenon that can cause premature failure of connected ...
In this work, the orientation and propagation of a crack in a fretting fatigue problem is analyzed n...
Fretting fatigue is a type of fatigue that may occur when two surfaces are in contact and subjected ...
In fatigue problems, an accurate estimation of the propagation direction is important for life predi...
This paper analyses the influence that the type of geometry used to obtain the stress/strain fields ...
International audienceIn this work, the finite elements method (FEM) is used to analyse the growth o...
In this article a new fretting fatigue life prediction model is presented. The model can be classifi...
AbstractA 2D X-FEM/LATIN numerical model (eXtended Finite Element Method/Large Time Increment method...
Fretting fatigue is a combination of two complex and serious mechanical phenomena, namely fretting a...
This work has been undertaken in the context of an international research cooperation between the Un...
This paper summarises the research carried out to develop Finite Element (FE) modelling and predict...
International audienceA combined experimental and numerical study is presented in order to predict f...
International audienceA 2D X-FEM/LATIN numerical model (eXtended Finite Element Method/Large Time In...