An integrated modeling approach to solder joint formation

Author

Bailey, Christopher ; Wheeler, Daniel ; Cross, Mark

Author_Institution

Centre for Numerical Modelling & Process Anal., Greenwich Univ., London, UK

Volume

22

Issue

4

fYear

1999

fDate

12/1/1999 12:00:00 AM

Firstpage

497

Lastpage

502

Abstract

The attachment of electronic components to printed circuit boards using solder material is a complex process. This paper presents a novel modeling methodology, which integrates the governing physics taking place. Multiphysics modeling technology, imbedded into the simulation tool-PHYSICA is used to simulate fluid flow, heat transfer, solidification and stress evolution in an integrated manner. Results using this code are presented, detailing the mechanical response of two solder materials as they cool, solidify and then deform. The shape that a solder joint takes upon melting is predicted using the SURFACE EVOLVER code. Details are given on how these predictions can be used in the PHYSICA code to provide a modeling route by which the shape, solidification history, and resulting stress profiles can be predicted

Keywords

digital simulation; electronic engineering computing; heat transfer; melting; printed circuit manufacture; soldering; PHYSICA; SURFACE EVOLVER code; fluid flow; heat transfer; integrated modeling approach; mechanical response; melting; multiphysics modeling technology; printed circuit boards; solder joint formation; solder material; solidification; stress evolution; stress profiles; Circuit simulation; Electronic components; Fluid flow; Integrated circuit technology; Physics; Printed circuits; Shape; Soldering; Solid modeling; Stress;

fLanguage

English

Journal_Title

Components and Packaging Technologies, IEEE Transactions on

Publisher

ieee

ISSN

1521-3331

Type

jour

DOI

10.1109/6144.814964

Filename

814964