Multiple Jet Impingement in Reflow Soldering -a Numerical Approach

Multiple jet impingement is a technology widely implemented in the reflow soldering process. Forced convection through jet impingement allows high average heat transfer coefficients and increases the uniformity of the heat transfer over the target surface. These characteristics are required to enhan...

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Bibliographic Details
Published inLecture notes in engineering and computer science Vol. 2235/2236; p. 557
Main Authors Barbosa, Flavia V, Silva, Joao P V, Teixeira, Senhorinha F C F, Soares, Delfim F, Santos, Duarte N F S, Delgado, Isabel A C C F, Teixeira, Jose Carlos F
Format Journal Article
LanguageEnglish
Published Hong Kong International Association of Engineers 04.07.2018
Subjects
Computational fluid dynamics
Computer simulation
Experimentation
Forced convection
Heat transfer
Heat transfer coefficients
Impingement
Jet impingement
Jets
Mathematical models
Nozzles
Reflow soldering
Simulation
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Summary:Multiple jet impingement is a technology widely implemented in the reflow soldering process. Forced convection through jet impingement allows high average heat transfer coefficients and increases the uniformity of the heat transfer over the target surface. These characteristics are required to enhance the process and to avoid local hot (or cold) spots. To reduce products defects, all the variables identified in reflow soldering need to be controlled. Generating such data from experimentation is quite demanding in terms of planning, facilities and cost of experimentation. In that sense, to improve the industrial process and to reduce time and costs, the introduction of the computational simulation plays an important role. Considering the relevance of this area for the industry, this paper presents the numerical modeling of multiple jets impinging on a target surface using the SST k-ω model, considered by recent authors as the most appropriate turbulence model for jet impingement simulation. Through the CFD study, it is possible to analyze the flow behavior of the jets but also the variation of the surface temperature with time. Results revealed an accurate simulation of the jets flow field from the nozzle plate to the target surface. The jet-to-jet and jet-to-plate interactions were clearly identified, proving that the variables identified in a multiple jet system need to be cautiously analyzed since they interfere with the performance of the heat transfer over the target surface.
ISSN:2078-0958
2078-0966