AbstractIn this study, a low-cycle fatigue experiment was conducted on printed wiring boards (PWB). The Weibull regression model and computational Bayesian analysis method were applied to analyze failure time data and to identify important factors that influence the PWB lifetime. The analysis shows that both shape parameter and scale parameter of Weibull distribution are affected by the supplier factor and preconditioning methods Based on the energy equivalence approach, a 6-cycle reflow precondition can be replaced by a 5-cycle IST precondition, thus the total testing time can be greatly reduced. This conclusion was validated by the likelihood ratio test of two datasets collected under two different preconditioning methods Therefore, the W...
This paper deals with the “physical reliability models” assessment and estimation for electrical ins...
In the reliability modeling field, we sometimes encounter systems with uncertain structures, and the...
This paper presents mean fatigue lifetime prediction of a wire-bond structure model in power electro...
In this thesis it has been studied how operational and workshop data can be used to improve the hand...
Reliability assessment of aged electrical components in the presence of overstresses (e.g. voltage ...
Abstract: The aim of the present paper is to bring arguments in favour of Bayesian inference in the ...
Reliability estimation procedures are discussed for the example of fatigue development in solder joi...
In order to more accurately analyze the fatigue reliability of motor hanger for high-speed train and...
This paper presents a new statistical parametric model to predict the times-to-failure of broad clas...
In ideal circumstances, failure time data for a K component series system contain the time to failur...
Testing the reliability of Smart Power semiconductor devices is highly time and cost consuming. Neve...
This article illustrates a Bayesian inference methodology for the parametric evaluation of the relia...
This article illustrates a Bayesian inference methodology for the parametric evaluation of the relia...
Engineers perform fatigue assessments to support structural integrity management. Given that the pur...
This paper deals with the “physical reliability models” assessment and estimation for electrical ins...
In the reliability modeling field, we sometimes encounter systems with uncertain structures, and the...
This paper presents mean fatigue lifetime prediction of a wire-bond structure model in power electro...
In this thesis it has been studied how operational and workshop data can be used to improve the hand...
Reliability assessment of aged electrical components in the presence of overstresses (e.g. voltage ...
Abstract: The aim of the present paper is to bring arguments in favour of Bayesian inference in the ...
Reliability estimation procedures are discussed for the example of fatigue development in solder joi...
In order to more accurately analyze the fatigue reliability of motor hanger for high-speed train and...
This paper presents a new statistical parametric model to predict the times-to-failure of broad clas...
In ideal circumstances, failure time data for a K component series system contain the time to failur...
Testing the reliability of Smart Power semiconductor devices is highly time and cost consuming. Neve...
This article illustrates a Bayesian inference methodology for the parametric evaluation of the relia...
This article illustrates a Bayesian inference methodology for the parametric evaluation of the relia...
Engineers perform fatigue assessments to support structural integrity management. Given that the pur...
This paper deals with the “physical reliability models” assessment and estimation for electrical ins...
In the reliability modeling field, we sometimes encounter systems with uncertain structures, and the...
This paper presents mean fatigue lifetime prediction of a wire-bond structure model in power electro...