Thermal shock fatigue enhancement of solder joints by using novel reinforcing fabrics

To meet the increasing lifetime requirements of solder joints in thermal cycling, the coefficient of thermal expansion (CTE) of the printed circuit board (PCB) has to be conformed to the CTE of the surface mounted devices (SMD). Novel reinforcing fabrics were successfully used to reduce the CTE of t...

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Main Authors: Zecha, H., Ratchev, R., Zerna, T.
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Zerna, T.
description To meet the increasing lifetime requirements of solder joints in thermal cycling, the coefficient of thermal expansion (CTE) of the printed circuit board (PCB) has to be conformed to the CTE of the surface mounted devices (SMD). Novel reinforcing fabrics were successfully used to reduce the CTE of the PCB. Thereby, the mismatch in the CTE of PCB and SMD was reduced. In order to check the expected effect of the improvements, chip resistors were mounted to the PCBs. The samples were aged in a temperature shock test between −40 °C and 125 °C. The characterization of the ageing behavior was done by measuring the required force to shear SMDs off the PCB as well as analysis of crack lengths. The results with the improved CTE showed significant improvement in lifetime of the solder joints.
doi_str_mv 10.1109/ESTC.2012.6542181
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title Thermal shock fatigue enhancement of solder joints by using novel reinforcing fabrics
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