Add to ORKGPaper studies the prediction of the crack extension of the brittle and ductile fracture of the structural materials using the cohesive elements FEM
The approarch based on the experimental and numerical procedure for the cohesive parameters determi...
Summary. In this paper, the Extended Finite Element Method [1] is used for modelling cohesive and no...
The micromechanical models of damage have found increasing interest. The general advantage, compared...
The cohesive zone model and cohesive elements were used for the crack growth prediction in the ducti...
This brief provides guidance for the application of cohesive models to determine damage and fracture...
International audienceA model is presented that accurately describes brittle failure in the presence...
This paper presents a cohesive zone model and explores its capacity for predicting crack growth in m...
In the present paper, ductile crack growth in an aluminium alloy is numerically simulated using a co...
This thesis concerns modeling ductile fracture using a cohesive zone model (CZM) and finite element ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
AbstractThis paper is devoted to the formulation of transitions in fracture for quasi static and dyn...
A cohesive zone model (CZM) is used for simulating ductile crack growth. Some new aspects and assump...
This study presents calibration and validation of a cohesive extended finite element model for fatig...
The aim of the paper is the development, assessment and use of suitable numerical procedures for the...
AbstractThe process of micro-crack nucleation and the first stages of micro-meso-crack propagation a...
The approarch based on the experimental and numerical procedure for the cohesive parameters determi...
Summary. In this paper, the Extended Finite Element Method [1] is used for modelling cohesive and no...
The micromechanical models of damage have found increasing interest. The general advantage, compared...
The cohesive zone model and cohesive elements were used for the crack growth prediction in the ducti...
This brief provides guidance for the application of cohesive models to determine damage and fracture...
International audienceA model is presented that accurately describes brittle failure in the presence...
This paper presents a cohesive zone model and explores its capacity for predicting crack growth in m...
In the present paper, ductile crack growth in an aluminium alloy is numerically simulated using a co...
This thesis concerns modeling ductile fracture using a cohesive zone model (CZM) and finite element ...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
AbstractThis paper is devoted to the formulation of transitions in fracture for quasi static and dyn...
A cohesive zone model (CZM) is used for simulating ductile crack growth. Some new aspects and assump...
This study presents calibration and validation of a cohesive extended finite element model for fatig...
The aim of the paper is the development, assessment and use of suitable numerical procedures for the...
AbstractThe process of micro-crack nucleation and the first stages of micro-meso-crack propagation a...
The approarch based on the experimental and numerical procedure for the cohesive parameters determi...
Summary. In this paper, the Extended Finite Element Method [1] is used for modelling cohesive and no...
The micromechanical models of damage have found increasing interest. The general advantage, compared...