Title of article
Effects of Temperature on the Wave Soldering of Printed Circuit Boards: CFD Modeling Approach
Author/Authors
Abdul Aziz ، M. S. - Universiti Sains Malaysia , Abdullah ، M. Z. - Universiti Sains Malaysia , Khor ، C. Y. - Universiti Malaysia Perlis (UniMAP), UniCITI Alam Campus , Che Ani ، F. - Universiti Kebangsaan Malaysia , Adam ، N. H. Soil Instruments (M) Sdn Bhd
Pages
10
From page
2053
To page
2062
Abstract
This study investigated the effects of temperature on the wave soldering of printed circuit boards (PCBs) using three-dimensional finite volume analysis. A computational solder pot model consisting of a six-blade rotational propeller was developed and meshed using tetrahedral elements. The leaded molten solder (Sn63Pb37) distribution and PCB wetting profile were determined using the volume of fluid technique in the fluid flow solver, FLUENT. In this study, the effects of five different molten solder temperatures (456 K, 473 K, 523 K, 583 K, and 643 K) on the wave soldering of a 70 mm × 146 mm PCB were considered. The effects of temperature on wetting area, wetting profile, velocity vector, and full wetting time were likewise investigated. Molten solder temperature significantly affected the wetting time and distribution of PCBs. The molten solder temperature at 523 K demonstrated desirable wetting distribution and yielded a stable fountain profile and was therefore considered the best temperature in this study. The simulation results were substantiated by the experimental results.
Keywords
Wave soldering , Wetting area , Volume of fluid (VOF) , Finite volume method , Printed circuit board (PCB)
Journal title
Journal of Applied Fluid Mechanics
Serial Year
2016
Journal title
Journal of Applied Fluid Mechanics
Record number
2479073
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