Add to ORKGThis work employs the Birnbaum--Saunders distribution to model the fatigue life of metallic materials under cyclic loading and compares it with the normal distribution. Fatigue-limit models are fitted to three datasets of unnotched specimens of 75S-T6 aluminum alloys and carbon laminate with different loading types. A new equivalent stress definition that accounts for the effect of the experiment type is proposed. The results show that the Birnbaum--Saunders distribution consistently outperforms the normal distribution in fitting the fatigue data and provides more accurate predictions of fatigue life and survival probability
AbstractThis paper proposes a modification of the Walker model to account for the mean stress effect...
The formulation of a probability-stress-life (P-S-N) curve is a necessary step beyond the basic S-N ...
In design against fatigue, a lower bound stress range vs. endurance curve (S-N curve) is employed to...
The fatigue life distribution proposed by Birnbaum and Saunders has been used quite effectively to m...
In this paper, the interest is in estimating the fatigue life distribution of highly reliable struct...
The Birnbaum-Saunders model is widely applied to model fatigue failures caused by cyclic stresses bo...
Fatigue, recognized as one of the main causes of failures of mechanical and electrical components, i...
The fatigue failure of materials can be investigated by applying the Birnbaum-Saunders (BS) distribu...
Fatigue is structural damage produced by cyclic stress and tension. An important statistical model f...
In a fatigue-limit model, units tested below the fatigue limit (also known as the threshold stress) ...
The fatigue-limit model studied here contains an unknown fatigue limit parameter. Under this model, ...
Fatigue in a material occurs when it is subjected to fluctuating stress and strain, which usually re...
This thesis has two parts. In the first part, we use the results of new fatigue experiments conduct...
We establish that the Birnbaum-Saunders distribution is the equilibrium mixture of the inverse Gauss...
We propose an extended fatigue lifetime model called the odd log-logistic Birnbaum–Saunders–Poisson ...
AbstractThis paper proposes a modification of the Walker model to account for the mean stress effect...
The formulation of a probability-stress-life (P-S-N) curve is a necessary step beyond the basic S-N ...
In design against fatigue, a lower bound stress range vs. endurance curve (S-N curve) is employed to...
The fatigue life distribution proposed by Birnbaum and Saunders has been used quite effectively to m...
In this paper, the interest is in estimating the fatigue life distribution of highly reliable struct...
The Birnbaum-Saunders model is widely applied to model fatigue failures caused by cyclic stresses bo...
Fatigue, recognized as one of the main causes of failures of mechanical and electrical components, i...
The fatigue failure of materials can be investigated by applying the Birnbaum-Saunders (BS) distribu...
Fatigue is structural damage produced by cyclic stress and tension. An important statistical model f...
In a fatigue-limit model, units tested below the fatigue limit (also known as the threshold stress) ...
The fatigue-limit model studied here contains an unknown fatigue limit parameter. Under this model, ...
Fatigue in a material occurs when it is subjected to fluctuating stress and strain, which usually re...
This thesis has two parts. In the first part, we use the results of new fatigue experiments conduct...
We establish that the Birnbaum-Saunders distribution is the equilibrium mixture of the inverse Gauss...
We propose an extended fatigue lifetime model called the odd log-logistic Birnbaum–Saunders–Poisson ...
AbstractThis paper proposes a modification of the Walker model to account for the mean stress effect...
The formulation of a probability-stress-life (P-S-N) curve is a necessary step beyond the basic S-N ...
In design against fatigue, a lower bound stress range vs. endurance curve (S-N curve) is employed to...