Linear and nonlinear mixed effects models are applied extensively in the study of repeated measurements and longitudinal data. In this thesis, we propose two linear random effects models and a nonlinear random effects model based on the Paris-Erdogan equation for describing the crack growth data of Virkler et al. (1979). We describe how such models can be applied to achieve the future prediction and prediction interval of the time, when the crack attains a specific length. We propose eleven new methods for prediction interval by extending the methods of Swamy (1971), Rao (1975), Liski and Nummi (1996), Pinheiro and Bates (2000) and Stirnemann et al. (2011). We compare the methods and models by applying them on the crack propagation and simu...
A nondimensional model of microstructurally short crack growth in creep is developed based on a deta...
Introduction Fatigue crack growth data generally exhibit substantial scatter. The origins of the sca...
Due to the statistical nature of material properties, crack growth is a random process. This process...
In this dissertation, we develop a generalized linear mixed model for analyzing fatigue crack propag...
This paper details a stochastic, time-inhomogeneous model that serves as a theoretical basis for the...
In order to analyse the fatigue crack growth under random loading and to have enough data to analyse...
The present paper proposes a statistical model for describing sigmoidal crack growth rate curves. Ma...
A four-parameters model for interpolation of fatigue crack growth data is presented. It has been val...
Inspection intervals of critical safety components should be calculated on the basis of sophisticate...
This paper is concerned with the application of a mathematical model that describes the fatigue crac...
AbstractThe paper deals with the problem of fatigue crack growth under variable-amplitude loading fr...
A four-parameters model for interpolation of fatigue crack growth data is presented. It has been val...
Statistical fatigue life of a ductile alloy specimen is traditionally divided into three phases, viz...
Following earlier stochastic models of crack growth a simple function of the crack length follows a ...
This work deals with the evaluation of the fatigue crack growth rate of structural components subjec...
A nondimensional model of microstructurally short crack growth in creep is developed based on a deta...
Introduction Fatigue crack growth data generally exhibit substantial scatter. The origins of the sca...
Due to the statistical nature of material properties, crack growth is a random process. This process...
In this dissertation, we develop a generalized linear mixed model for analyzing fatigue crack propag...
This paper details a stochastic, time-inhomogeneous model that serves as a theoretical basis for the...
In order to analyse the fatigue crack growth under random loading and to have enough data to analyse...
The present paper proposes a statistical model for describing sigmoidal crack growth rate curves. Ma...
A four-parameters model for interpolation of fatigue crack growth data is presented. It has been val...
Inspection intervals of critical safety components should be calculated on the basis of sophisticate...
This paper is concerned with the application of a mathematical model that describes the fatigue crac...
AbstractThe paper deals with the problem of fatigue crack growth under variable-amplitude loading fr...
A four-parameters model for interpolation of fatigue crack growth data is presented. It has been val...
Statistical fatigue life of a ductile alloy specimen is traditionally divided into three phases, viz...
Following earlier stochastic models of crack growth a simple function of the crack length follows a ...
This work deals with the evaluation of the fatigue crack growth rate of structural components subjec...
A nondimensional model of microstructurally short crack growth in creep is developed based on a deta...
Introduction Fatigue crack growth data generally exhibit substantial scatter. The origins of the sca...
Due to the statistical nature of material properties, crack growth is a random process. This process...