Tri-Layer Structures Subjected to Combined Temperature and Mechanical Loadings

Thermal stress has been a concern in electronic packaging for decades. More recently, mechanical bending of printed circuit board (PCB) assembly has attracted increased interest due to the drop impact failure of interconnects in mobile products. Analytical solutions are available in the literatures...

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Veröffentlicht in:	IEEE transactions on components and packaging technologies 2008-12, Vol.31 (4), p.790-800
Hauptverfasser:	Wong, E.H., Wong, C.K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Analytical solutions Assembly Bending Circuit boards drop impact electronic packaging Electronic packaging thermal management Electronics packaging Integrated circuit interconnections Integrated circuit modeling Mathematical analysis Mathematical models mechanical bending Performance analysis Printed circuit boards Printed circuits solder joints Solders Studies Temperature Thermal loading thermal stress Thermal stresses
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container_title	IEEE transactions on components and packaging technologies
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creator	Wong, E.H. Wong, C.K.
description	Thermal stress has been a concern in electronic packaging for decades. More recently, mechanical bending of printed circuit board (PCB) assembly has attracted increased interest due to the drop impact failure of interconnects in mobile products. Analytical solutions are available in the literatures for a PCB assembly modeled as a tri-layer structure, consisting of IC components, PCBs, and an interconnect layer, subjected to either thermal stress or mechanical bending, but there are no known reports for combined loadings. This paper presents a comprehensive treatment for a PCB assembly subjected to combined temperature and mechanical loadings, taking into account the axial, shear, and flexural deformation of the interconnects. Solutions are provided for two types of interconnect layer: one in which the interconnect layer is made of a continuous element such as adhesive, and another in which the interconnect layer is made of discrete elements such as solder joints. The solutions were successfully validated with finite-element analysis, and design analyses were performed for both types of interconnect layers.
doi_str_mv	10.1109/TCAPT.2008.2001196
format	Article
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subjects	Analytical solutions Assembly Bending Circuit boards drop impact electronic packaging Electronic packaging thermal management Electronics packaging Integrated circuit interconnections Integrated circuit modeling Mathematical analysis Mathematical models mechanical bending Performance analysis Printed circuit boards Printed circuits solder joints Solders Studies Temperature Thermal loading thermal stress Thermal stresses
title	Tri-Layer Structures Subjected to Combined Temperature and Mechanical Loadings
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