Electronic packaging solder joints are the key parts of mechanical fixation and electrical interconnection between electronic chips and printed circuit boards, which are prone to failure and lead to electronic device failures under the action of vibration environment stress. In regard to the failure characterization and degradation modeling of electronic packaging solder joints under vibration load, this paper adopts environmental stress tests, builds a vibration failure test platform, designs a vibration load excitation spectrum, and obtains solder joint degradation data under vibration stress; it uses the square root amplitude, form factors, and kurtosis factors to characterize the solder joint degradation process, which effectively ident...
AbstractPb40/Sn60 is the most commonly used solder alloy for microelectronics packaging. It is well ...
Accuracy of fatigue life prediction of solder joint materials using the finite element method (FEM) ...
As the trends in green manufacturing, miniaturization, and enhanced functionality of electronics dev...
Solder joints in electronic assemblies are one of the major failure sites under thermal, mechanical ...
A method for non-destructively tracking the integrity of flip chip solder joints through life is inv...
Electronics are subjected to thermal, mechanical or chemical stress conditions during their operatio...
Recent trends in reliability and fatigue life analysis of electronic devices have involved developin...
Vibration loading can have a significant impact on the reliability of electronic components. Due to ...
Vibration is commonly encountered during the life time of electronic components. It is a major cause...
In this work the life time of solder joints of SMD components is studied under vibration loading. Th...
Solder joints are commonly used in surface mount echnology microelectronics pack-aging. It is well k...
AbstractThis study investigates vibration fatigue durability of solder interconnects of surface moun...
Vibration loading is commonly encountered during the service life of electronic products. However, c...
As a result of the ban of lead from solder joints, many lead-free solder joints were developed. Most...
Solder interconnection in electronic packaging is the weakest link, thus driving the reliability of ...
AbstractPb40/Sn60 is the most commonly used solder alloy for microelectronics packaging. It is well ...
Accuracy of fatigue life prediction of solder joint materials using the finite element method (FEM) ...
As the trends in green manufacturing, miniaturization, and enhanced functionality of electronics dev...
Solder joints in electronic assemblies are one of the major failure sites under thermal, mechanical ...
A method for non-destructively tracking the integrity of flip chip solder joints through life is inv...
Electronics are subjected to thermal, mechanical or chemical stress conditions during their operatio...
Recent trends in reliability and fatigue life analysis of electronic devices have involved developin...
Vibration loading can have a significant impact on the reliability of electronic components. Due to ...
Vibration is commonly encountered during the life time of electronic components. It is a major cause...
In this work the life time of solder joints of SMD components is studied under vibration loading. Th...
Solder joints are commonly used in surface mount echnology microelectronics pack-aging. It is well k...
AbstractThis study investigates vibration fatigue durability of solder interconnects of surface moun...
Vibration loading is commonly encountered during the service life of electronic products. However, c...
As a result of the ban of lead from solder joints, many lead-free solder joints were developed. Most...
Solder interconnection in electronic packaging is the weakest link, thus driving the reliability of ...
AbstractPb40/Sn60 is the most commonly used solder alloy for microelectronics packaging. It is well ...
Accuracy of fatigue life prediction of solder joint materials using the finite element method (FEM) ...
As the trends in green manufacturing, miniaturization, and enhanced functionality of electronics dev...