Electronic devices for automotive applications represent a big market today. The number of these devices per car significantly increased within the last years. At the same time the mounting positions of the devices are close to engine, gear or suspension structures and therefore face harsh use conditions. Nevertheless the expected lifetime of these devices is 25 years or even more. Careful and comprehensive engineering is needed to fulfil the named requirements. To access the reliability of solder joints facing the described conditions an understanding of the damage mechanism driven by vibration and thermal loads need to be gained. To address this situation vibration experiments on as reflowed as well as on isothermally pre-aged (high tempe...
The solder joints of surface mount components (SMCs) experience thermal degradation culminating in c...
In the past vibration experiments have been conducted in the field of automotive, railway transporta...
Vibration is commonly encountered during the life time of electronic components. It is a major cause...
Electronic devices for automotive applications represent a big market today. The number of these dev...
In this work we present the results on a reliability study on chip capacitor solder joints. The comp...
In this work the life time of solder joints of SMD components is studied under vibration loading. Th...
Recent trends in reliability and fatigue life analysis of electronic devices have involved developin...
In this paper, we discuss lifetime prediction for flip chips under temperature and vibration loading...
Although there exist promising ways to avoid inelastic strains in solder joints of the second level ...
Solder joints have been an integral part of any electronic assembly. They serve as both the electric...
In this work we present an experimental approach for reliability investigations under coupled vibrat...
Electronic assemblies in field use are exposed to a wide range of environmental loads. The interacti...
This report describes vibration and thermal cycling effects on solder joint reliability, especially ...
Abundant data exist on the short-term reliability (i.e. less than 5 years) of lead-free solder joint...
A method for non-destructively tracking the integrity of flip chip solder joints through life is inv...
The solder joints of surface mount components (SMCs) experience thermal degradation culminating in c...
In the past vibration experiments have been conducted in the field of automotive, railway transporta...
Vibration is commonly encountered during the life time of electronic components. It is a major cause...
Electronic devices for automotive applications represent a big market today. The number of these dev...
In this work we present the results on a reliability study on chip capacitor solder joints. The comp...
In this work the life time of solder joints of SMD components is studied under vibration loading. Th...
Recent trends in reliability and fatigue life analysis of electronic devices have involved developin...
In this paper, we discuss lifetime prediction for flip chips under temperature and vibration loading...
Although there exist promising ways to avoid inelastic strains in solder joints of the second level ...
Solder joints have been an integral part of any electronic assembly. They serve as both the electric...
In this work we present an experimental approach for reliability investigations under coupled vibrat...
Electronic assemblies in field use are exposed to a wide range of environmental loads. The interacti...
This report describes vibration and thermal cycling effects on solder joint reliability, especially ...
Abundant data exist on the short-term reliability (i.e. less than 5 years) of lead-free solder joint...
A method for non-destructively tracking the integrity of flip chip solder joints through life is inv...
The solder joints of surface mount components (SMCs) experience thermal degradation culminating in c...
In the past vibration experiments have been conducted in the field of automotive, railway transporta...
Vibration is commonly encountered during the life time of electronic components. It is a major cause...