Hot Air Solder Leveling (HASL) has always been the main staple of PCB surface finishes. In the late 1980s, 60/40 tin-lead reflow started to phase out of processes and was replaced with Hot Air Solder Leveling. HASL finish, the long running reliable surface finish, is still used today in military, aerospace, medical, and other applications.
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The Evolution of Hot Air Solder Leveling
The long history of HASL representing an excellent solderable finish for printed circuit boards has kept it alive in the global PCB market, both domestic and offshore, even though it contains lead (Pb).
We recognized since the beginning of EU RoHS in mid-2006 that HASL was here to stay. Longevity and reliability combined with the trust of customers meant finding a solution to keeping the process alive, which meant trying to remove the lead was going to be a necessity.
Given that PCBs are in everything from industrial applications to toys, the safety concern was obvious. Once the health risks from prolonged exposure to lead for children and adults were established, getting lead out of products became the focal point for the electronic manufacturer.
Originally the expectation was that lead would be entirely removed from everything we touched.
Fast forward to present day, and we've come to the realization that lead may never be 100% totally gone from all products. However, choosing a PCB surface finish that works best for you and your process while still keeping the environment safe is has become a much more practical solution.
What About Lead Free HASL Finish?
The Lead Free Version (LFH) of HASL PCB finish became the most frequently considered surface finish next to immersion gold early in the process of safer finish alternatives. So, why didn't lead free HASL become the new standard instead of simply becoming a hassle for manufacturers? Due to the complicated nature of applying a LFH finish, some circuit board manufacturing facilities may need to outsource this process.
PCB with HASL / Lead Free HASL Surface Finish
The chemistry involved in the makeup of LFH has changed over the years, as have the applications. Vertical and horizontal applications both initially had the same issue as HASL; a pooling, non-flat finish with a somewhat foggy appearance in areas of the PCB.
Pre-trial combinations of the LFH gave the finish a bad review. The combination of tin, silver, and copper alloy originally had poor results at the processing level, leaving behind a bumpy uneven coat that was dull and unattractive as well as having a poor performance in assembly. Removing the silver, changing the tin-copper, and tweaking the manufacturing process has allowed for a better, smoother surface coating than originally found. With this promising development in application, demand has increased, as well as brought more LFH in house and decreased time to customer product delivery.
Pb Free HASL Processing Challenges
LFH needed to be applied at a hotter temperature. On the first pass, the surface is left grainy and dull. Once the second pass has been added, both surface as well as appearance improve to a shiny, much flatter, much smoother, even coat. However, excess heat from two dips in the molten solution leaves copper on the hole walls, reducing the copper below the acceptable limits per IPC standards. This forced another process change once again adding a stain to the LFH finish.
After a lot of subsequent changes to chemistries and processes, lead free HASL is now a stable surface application to use on PCBs. Improved process eventually produced a consistent means of using lead free HASL surface finish, dramatically reducing the hassle experienced within the PCB manufacturing industry.
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LFH Decrease In The PCB Industry
So after all the improvements, why does LFH still seem to be the least used surface finish in the industry today?
ENIG finish (Electroless Nickel Immersion Gold), OSP finish (Organic Solderability Preservative), and even immersion tin and silver all took the lead in surface finish popularity for manufacturing. While Pb Free HASL finish became more possible, it still remains a more complex process than other finishes. As technology continues to develop, real estate on surface becomes tighter and footprints decrease, making it harder for LFH to establish itself as the go to surface treatment.
Summary
Lead Free HASL has improved viability in terms of process, but it still has some groundwork to overcome when competing against other surface finishes. However, this once not-so-popular finish has consistently been gaining popularity among customers, prompting manufacturers to give it a greater consideration as a main staple up against immersion silver, OSP, and immersion tin.
With the continuous development of the electronics industry, the technical level of PCB is also rising. Common surface treatment technology include HASL(Lead Free HASL and HASL), immersion gold, gold plating, OSP, etc. HASL is to coat a layer of tin-lead alloy on the copper surface to prevent the copper surface from being oxidized, and then provide a good soldering base for subsequent assembly. Do you know the difference between lead free HASL and HASL?
1. Lead-free HASL belongs to environmentally protection process and does not contain harmful substances "lead"; HASL is not an environmentally protection process and contains harmful substance "lead", which is harmful to human body for long-term use.
2. The lead content of lead free HASL shall not exceed 0.5, but the lead content of HASL shall reach 37.
3. From the surface of the tin, HASL is brighter and lead-free HASL is darker; The wettability of HASL is better than lead free HASL.
4. Lead will increase the activity of the tin solder wire during the soldering process. Compared with the lead free solder wire, the lead-containing solder wires is easier to use. Lead-free HASL has a higher melting point than HASL, and the solder joints will be much stronger.
5. The melting point of lead free HASL is about 218 degrees, the temperature of the tin stove needs to be controlled at 280-300 degrees, the temperature of wave soldering needs to be controlled at about 260 degrees, and the temperature of reflow soldering is about 260-270 degrees.
6. The melting point of lead free HASL is about 183 degrees, the temperature of the tin stove needs to be controlled at 245-260 degrees, the temperature of wave soldering needs to be controlled at about 250 degrees, and the temperature of reflow soldering is about 245-255 degrees.
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