Add to ORKGIn this paper, we propose a method to quantitatively estimate the decrease in threshold stress intensity factor (SIF) range due to high SIF, that is observed for some materials in constant maximum SIF fatigue crack growth tests. The parameters cased for the simulation were inversely determined with the aid of Genetic Algorithm. The validity of our method was shown by comparing the simulation data with experimental data for embrittled S 55 C
17-23The finite element method (FEM) is used to analyze the behavior of repaired cracks in 2024-T3 ...
The stress intensity factor (SIF) is defined usually by following formulas for the fracture-modes l...
A practice for analyzing some raw data from fatigue crack growth tests, carried out on specimens obt...
The value of the stress intensity factor (SIF) range threshold ΔKth for fatigue crack growth (FCG) d...
In this paper, we consider the decrease in threshold stress intensity factor (SIF) range ΔK_<th>due ...
The value of the stress intensity factor (SIF) range threshold (∆K_th ) for fatigue crack growth (FC...
Inertia and damping influence the values of the stress intensity factors (SIFs) at high-frequency lo...
ABSTRACT: This paper considers an approach to the description of the fatigue crack growth invariant ...
The stress field parameters, namely the notch stress intensity factors (N-SIFs) according to a more ...
Using Stress Intensity Factor (SIF) to predict the growth of semi elliptical multiple surface cracks...
AbstractThis work is focused on the experimental determination of the stress intensity factor (SIF) ...
[[abstract]]Based on a micromechanical model, the threshold stress intensity factor is predicted. It...
In this paper, the finite element method is used to analyze the behaviour of repaired cracks in 2024...
The effect of these parameters on the SIF evaluation are then tested for stable and accurate SIF est...
ABSTRACT The use of the crack tip stress intensity factor, K, has survived almost 50 years as the ke...
17-23The finite element method (FEM) is used to analyze the behavior of repaired cracks in 2024-T3 ...
The stress intensity factor (SIF) is defined usually by following formulas for the fracture-modes l...
A practice for analyzing some raw data from fatigue crack growth tests, carried out on specimens obt...
The value of the stress intensity factor (SIF) range threshold ΔKth for fatigue crack growth (FCG) d...
In this paper, we consider the decrease in threshold stress intensity factor (SIF) range ΔK_<th>due ...
The value of the stress intensity factor (SIF) range threshold (∆K_th ) for fatigue crack growth (FC...
Inertia and damping influence the values of the stress intensity factors (SIFs) at high-frequency lo...
ABSTRACT: This paper considers an approach to the description of the fatigue crack growth invariant ...
The stress field parameters, namely the notch stress intensity factors (N-SIFs) according to a more ...
Using Stress Intensity Factor (SIF) to predict the growth of semi elliptical multiple surface cracks...
AbstractThis work is focused on the experimental determination of the stress intensity factor (SIF) ...
[[abstract]]Based on a micromechanical model, the threshold stress intensity factor is predicted. It...
In this paper, the finite element method is used to analyze the behaviour of repaired cracks in 2024...
The effect of these parameters on the SIF evaluation are then tested for stable and accurate SIF est...
ABSTRACT The use of the crack tip stress intensity factor, K, has survived almost 50 years as the ke...
17-23The finite element method (FEM) is used to analyze the behavior of repaired cracks in 2024-T3 ...
The stress intensity factor (SIF) is defined usually by following formulas for the fracture-modes l...
A practice for analyzing some raw data from fatigue crack growth tests, carried out on specimens obt...