Anybody with a rudimentary understanding of electronics, especially the person that habitually tinkers with and “fixes” the various appliances at home will know how regularly solder is used and needed, even more so for those in the industry.
Up till just recently though, solder wasn’t exactly a milestone of technological achievement. Rather, the basic premise behind solder has remained unchanged; it is still simply a little bit of lead (or other metal substance with a low melting point) which, after being melted, acts as an adhesive, holding together important parts of circuit. These parts being essentially an integral and regularly used component of those everyday tools like cell-phones and computers that we take for granted. Naturally, something so universal, and so small as to be oft-overlooked, is bound to have far-reaching consequences over time.
These consequences were not taken lightly by Ainissa Ramirez‘ and her team at Yale, who like many other scientists around the world had sought out a greener alternative for quite some time. Recently, the culmination of this teams research is to be published. An essential summary of the idea is that new tin-silver solder with iron particles will present a viable alternative to replace the afore-mentioned lead-based solder. But there’s more, asserts Ramirez, as “in addition to helping make the fabrication of microelectronics more environmentally responsible, these new solders have the potential to solve technological challenges.”
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To help preserve the environment is to help ourselves. Besides the obvious implication that a better environment will naturally be a greater bounty for us to enjoy, the research presents solutions to practical challenges in the industry. The alloy will be stronger than what we presently have to work with (the bond that it forms). Since the solder will be subject to an alternating magnetic field, the rest of the circuit remains relatively cool while the solder melts into place.
Lastly, fixing “broken” devices with problems of disconnected solder could possibly be solved by the application of a magnetic field as a means of re-melting the solder. Ultimately, what is seen here is an innovation that provides not only an environmental alternative to what is already available, but a technological advancement, something which ought to incline the industry to adopt it as well over time instead of it being relegated as a good-deed of the environmentally conscious electronics hobbyist.
For more information and a clip of the solder being manipulated, visit http://opa.yale.edu/news/article.aspx?id=7331
Comments 4
That’s really interesting theoretically but I doubt the technological advancement really offsets the cost so it might be a while before the market starts to adapt it or anything like it.
Author
The European Union already has favorable legislation to pave the way for this concept to be made marketable there. We also seem to be moving towards the same legal outcomes here in the United States. The state of California, for example, already has similar legislation in place.
Since pressure is being placed on the market through legal channels to adopt the alternatives, it follows that the cost-benefit issue won’t be as significant between the producers of lead-based solder and the alternative solder as it will be between the different alternatives themselves.
While I generally reject any opinion that begins “There are two types of people…”, I have to say that there are two types of people: those for whom solder does what it is supposed to do, and those for whom solder forms itself into tiny silver balls and rolls away. I speak as a member of the second group. Does this new solder tend to reduce the size of the second group? If so, I’m interested.
PS Please don’t bother to recommend flux. It makes no difference for me.
Author
Richard, if I understand what you’re saying and flux isn’t doing it for you, than yes, the research does have that potential to help. As the findings have just been published though, I can’t say you’ll see it on the market just yet, unfortunately.