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WHAT IS VAPOR PHASE REFLOW SOLDERING? By Andi, Vapor Phase Reflow Soldering is an advanced
soldering technology. This is fast replacing other forms of soldering processes
manufacturers presently use for assembling printed circuit boards in lead
technologies for all sorts of electronic products. Soldering electronic
components to printed circuit boards is a complex physical and chemical
process requiring high temperatures. With the introduction of lead-free
soldering, the process is more stringent, required still higher temperatures
and shorter times. All the while, components are becoming smaller, making the
process more complicated. Manufacturers face soldering problems because of
many reasons. Main among them is the introduction of lead-free components and
the lead-free process of soldering. The other reason is boards often can
contain different masses of components. The heat stored by these components
during the soldering process varies according to their mass, resulting in
uneven heat distribution leading to warping of the printed boards. As well
metal core PCBs and environments where solder joint integrity is critical. With Vapor Phase reflow soldering, the board and
components face the lowest possible maximum temperatures necessary for proper
soldering. Therefore, there is no overheating of components. The process
offers the best wetting of components with solder and the soldering process
happens in an inert atmosphere devoid of oxygen – resulting in the highest
quality of soldering. The entire process is environment friendly and cost
effective. In the Vapor Phase Reflow Soldering process, the
soldering chamber initially contains Galden, an
inert liquid, with a boiling point of 230°C. This is same as the process
temperature for lead-free Sn-Ag solders. During start up, Galden
is heated up to its boiling point, causing a layer of vapor above the liquid
surface, displacing the ambient air upwards. As the vapor has a higher
molecular weight, it stays just above the liquid surface, ensuring an inert
vapor zone. A printed circuit board and components introduced in
this inert vapor zone faces the phase change of the Galden
vapor trying to cool back its liquid form. The change of phase from vapor to
liquid involves the release of a large amount of thermal energy. As the vapor
encompasses the entire PCB and components, there is no difference in
temperature even for high-mass parts. Everything inside the vapor is
thoroughly heated up to the vapor temperature. This is the biggest advantage
of the vapor phase soldering process. The heat transfer coefficients during condensation
of the vapor ranges from 100-400Wm-3K-1. This is nearly 10 times higher than
heat transfer coefficients involved in convection or radiation and about 10
times lower than that with contact during liquid soldering processes. The
excellent heat transfer rate prevents any excessive or uneven heat transfer
and the soldering temperature of the vapor phase reflow process stays at a
constant 235°C. There are several advantages from the Vapor Phase
Reflow Soldering process. Soldering inside the vapor zone ensures there can
be no overheating. As the vapor completely encompasses the components, there
are no cold solders due to uneven heat transfer and shadowing. The inert
vapor phase process precludes the use of nitrogen. Controlled heating up of
the vapor consumes only one-fifth the usual direct energy consumption and
saves in air-conditioning costs. As the entire process is a closed one, there is no
creation of hazardous gasses such as from burnt flux. Additionally, Galden is a neutral process fluid and environment
friendly. |
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