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Tin Solder, Lead Solder, Flux-core Solder, and Rosin-core Solder– Differences and Uses
When it comes to assembling industrial-grade electronic circuits, solder and soldering wire are the major factors that determine the overall quality and longevity of the circuit board. But most of the time, soldering is taken for granted, and often we easily overlook solder choice, but the proper selection and use can make a big difference in the quality and reliability of solder joints. That is why in this article, we will tell you all you need to know about different types of solders, their uses, and implementations. So, without further ado, let's get started.
Types of Solder & their Composition
Solder is a fusible alloy with a low melting point that is used to bond metal in any circuit board. The technique to use a low-melting-point alloy to fuse two materials is around for years, but in the case of solder, it's generally tin, lead, and flux. Depending on the type of composition, solder can be classified as:
Lead-free Solder
As the name suggests, it is devoid of lead. Instead, the solder is made mostly of tin alloyed with other metals, such as Silver and Copper. Lead-free solders are RoHS (Reduction of Harmful Substances) standard compliant and better for the environment, with the harmful effects of Lead on the environment being well known.
The most common lead-free solder alloy you can find is SAC305. It is made up of Tin with 3% Copper and 0.5% Silver, used in SMT assembly. Next, on the list is SAC387, which is Tin with 3.8%, Copper 0.7%, and Silver. These are the costliest. Next, we have SAC405 that has Tin with 4%, Copper 0.5%, and Silver.
Of the above alloys, SAC387 and SAC405 are eutectic, meaning they have the same melting and solidification point, in this case, 217°C. Meanwhile, SAC305 has a melting point between 217 - 219°C.
Lead-Based Solder:
Leaded solder is the most common type of solder. It contains the metal Lead. Generally, leaded solder is considered the best, because of its good wetting and mechanical properties. A list of the most common types of lead-based solder is given below.
60/40–It is perhaps the most well-known and ubiquitous type of lead solder, it consists of 60% Tin and 40% Lead. It melts at around 190°C and forms soft joints, leading to joints that do not crack. But if the joint is moved before the solder has time to fully melt, the resulting joint is called a ‘cold joint’ and has poor electrical and mechanical properties. It tends to break apart very easily.
63/37 – This is the eutectic counterpart of 60/40 solder, melting at precisely 183°C. This property eliminates the formation of cold joints.
50/50 – This mix is primarily used for plumbing with high melting points and low ductility.
Comparison of The Properties of Similar Leaded and Lead-Free Solder:
Property |
Leaded Solder |
Lead-free Solder |
Composition |
37% Sn, 64% Pb |
95.5% Sn, 5% Ag, 0.5% Cu |
Melting Point |
183°C |
217°C |
RoHS Compliance |
No |
Yes |
Density |
8.5g/m2 |
3.7g/m2 |
Resistivity |
15mΩ-cm |
11mΩ-cm |
Sn – Tin, Pb – Lead, Cu – Copper, Ag – Silver
Important Parameters to Consider While Choosing Leaded and Lead-Free Solder:
- The general usability of Lead-Free solder is considered to be much harder than Leaded solder. The higher melting point contributes to the problem.
- The fluxes used with Lead-free solder are generally more corrosive and are more of an irritant than the fluxes used for Leaded solder and must be dealt with more carefully. They can corrode the tip of a soldering iron much faster than regular flux.
- The elevated temperatures required to work with Lead-free solder increase the amount of flux (and to a smaller extent the amount of actual metal vapor produced) which can be a health hazard.
- Solder alloys containing mainly Tin can develop whiskers over time, in a solder joint. This can lead to shorting with nearby joints.
- Lead-free solder is much less free-flowing (wettable) as compared to Leaded solder, which might make soldering a lot more difficult.
Type of Solder Based on Different Core
The solder wire you commonly see has a hollow core inside, you can say the solder wire is a tube-like structure, inside this tube, there can be different materials, and depending upon the material, it is differentiated into four categories a list of those is given below.
Uncored Solder:
Plain solder without a flux or rosin core. Usually difficult or tedious to work with, since it requires joints to be well-fluxed before application.
Rosin-cored:
Rosin is a resin obtained from coniferous plants which are boiled down to remove volatile compounds. It is typically used as solder flux and is found inside solder wire as a core. Multiple cores per wire are also available. Rosin generally leaves behind residue which must be cleaned up.
Flux-cored:
Flux-cored solder contains single or multiple cores of flux. Flux is somewhat more acidic than rosin, so the residue must be washed off to prevent further damage to joints and surrounding components.
Acid core solder:
Acid core solder consists of an acid-based flux, which is a strong and more aggressive form of solder flux. This type of solder helps to prevent the formation of an oxide layer that is harmful to the surface. Acid core solder is most often used in plumbing applications.
Conclusion
For hobbyists, Leaded solder is much more convenient since it is the easiest to work with. The experience of working with Lead-free solder depends on the quality of the product. It is also important to have a flux-cored solder, this will make soldering much easier. Flux-cored is preferred over rosin-cored since it’s easier to clean up.