A common approach for the determination of Slow Crack Growth (SCG) parameters are the static and dynamic loading method. Since materials with small Weibull module show a large variability in strength, a correct statistical analysis of the data is indispensable. In this work we propose the use of the Maximum Likelihood method and a Baysian analysis, which, in contrast to the standard procedures, take into account that failure strengths are Weibull distributed. The analysis provides estimates for the SCG parameters, the Weibull module, and the corresponding confidence intervals and overcomes the necessity of manual differentiation between inert and fatigue strength data. We compare the methods to a Least Squares approach, which can be conside...
Probabilistic failure analysis is essential when analysis of stress-life (S-N) curves is inconclusiv...
This thesis develops improved stochastic models for the description of a large variety of fatigue cr...
Inspection intervals of critical safety components should be calculated on the basis of sophisticate...
A common approach for the determination of Slow Crack Growth (SCG) parameters are the static and dyn...
The present paper proposes a statistical model for describing sigmoidal crack growth rate curves. Ma...
The two estimation methods, individual data and arithmetic mean methods, were used to determine the ...
This effort is an attempt to Weibullize fatigue crack growth rate data as a function of stress int...
The fatigue crack growth rate can be explained using features of the surface of a structure. Among o...
Extensive slow-crack-growth (SCG) analysis was made using a primary exponential crack-velocity formu...
International audienceMicrostructurally small cracks exhibit large variability in their fatigue crac...
This article presents an experimental–analytical statistical study of low-cycle fatigue to crack ini...
Summarization: A simple method to assess the safety of metallic structures in the presence of crack-...
Failure of brittle materials is due to the unstable propagation of a dominant crack and, therefore, ...
This paper details a stochastic, time-inhomogeneous model that serves as a theoretical basis for the...
Statistical fatigue life of a ductile alloy specimen is traditionally divided into three phases, viz...
Probabilistic failure analysis is essential when analysis of stress-life (S-N) curves is inconclusiv...
This thesis develops improved stochastic models for the description of a large variety of fatigue cr...
Inspection intervals of critical safety components should be calculated on the basis of sophisticate...
A common approach for the determination of Slow Crack Growth (SCG) parameters are the static and dyn...
The present paper proposes a statistical model for describing sigmoidal crack growth rate curves. Ma...
The two estimation methods, individual data and arithmetic mean methods, were used to determine the ...
This effort is an attempt to Weibullize fatigue crack growth rate data as a function of stress int...
The fatigue crack growth rate can be explained using features of the surface of a structure. Among o...
Extensive slow-crack-growth (SCG) analysis was made using a primary exponential crack-velocity formu...
International audienceMicrostructurally small cracks exhibit large variability in their fatigue crac...
This article presents an experimental–analytical statistical study of low-cycle fatigue to crack ini...
Summarization: A simple method to assess the safety of metallic structures in the presence of crack-...
Failure of brittle materials is due to the unstable propagation of a dominant crack and, therefore, ...
This paper details a stochastic, time-inhomogeneous model that serves as a theoretical basis for the...
Statistical fatigue life of a ductile alloy specimen is traditionally divided into three phases, viz...
Probabilistic failure analysis is essential when analysis of stress-life (S-N) curves is inconclusiv...
This thesis develops improved stochastic models for the description of a large variety of fatigue cr...
Inspection intervals of critical safety components should be calculated on the basis of sophisticate...