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Researchers Getting the Lead Out of Electronics

Posted by samzenpus on from the space-age-polymers dept.

alphadogg writes "Researchers at the University of Maryland say they have discovered a material to replace lead, a potential environmental hazard, in electronics products. The material, bismuth samarium ferrite (BSFO), was found by researchers in the university's A. James Clark School of Engineering. It can be used in products such as biomedical imaging devices and inkjet printers, and if implemented commercially could keep lead out of landfills and the ecosystem, they say. While manufacturers have developed replacements for lead in many products, until now no commercial replacement existed for lead zirconate titanate (PZT) — the material of choice for transducers, actuators, sensors and microelectromechanical systems used in common electronic devices, the university says."

18 of 178 comments (clear)

  1. What about radiation shielding? by CRCulver · · Score: 4, Interesting

    Could this new metal shield against cosmic rays as well as lead? I'm reminded of the scene in Kim Stanley Robinson's Red Mars where the inhabitants of a spacecraft have to hold out against an incoming solar flare and find their shielding woefully insufficient. A material that could block rays yet be lightweight and less toxic would no doubt be a boon to the space industry.

    1. Re:What about radiation shielding? by Cyberax · · Score: 5, Informative

      Lead is NOT a good shield against cosmic rays. Fast charged particles cause a strong bremsstrahlung (braking radiation) in lead. That's also how X-Rays machines work - fast electrons are slammed into targets made of lead or tungsten.

      High-density polyethylene, water or paraffin work much better for cosmic rays shielding.

      Now, lead is great against gamma-rays. But they are not the principal danger of cosmic rays.

    2. Re:What about radiation shielding? by DirtySouthAfrican · · Score: 4, Informative

      It's all about cross section, which roughly depends on the incoming particle's energy being close to the energy of a bound state in the atoms of the material that is to absorb the radiation. The density contributes an overall factor to the calculation. Also, led is nasty when charged particles are involved (electrons, probably protons), because they will rapidly decelerate and create brehmstrahlung, so you've traded a charged particle which is easy to deflect with an X ray, which is not easy to reflect. My wife uses plexiglass shields in her lab for this reason, because it gracefully absorbs beta radiation.

    3. Re:What about radiation shielding? by BluBrick · · Score: 5, Insightful

      Actually, extra mass is a problem even once it is in space. Manoeuvring all that extra mass requires greater amounts of energy, which is often somewhat in short supply.

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    4. Re:What about radiation shielding? by Miseph · · Score: 5, Funny

      Hey, no fair actually knowing how physics work! Here we are, all sci-FI about things, and you barge in with just sci... you must think you're sooooooo much better than the rest of us don't you?

      Good day sir, I say good day.

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  2. Toxicity? by saleenS281 · · Score: 4, Insightful

    So... have they actually tested this on humans to verify it's non-toxic? That's great that we're not using lead, but if this is just as bad for humans when it hits our water supply, what exactly is the benefit? Swapping one (cheap) poison for another (expensive) one?

    1. Re:Toxicity? by fuzzyfuzzyfungus · · Score: 4, Informative

      Toxicology can be full of (un)pleasant surprises; but the list of elements involved is promising. Bismuth is a widely accepted nontoxic substitute for lead in applications where similar mechanical properties are needed, and is a component of certain medicines. Iron is generally unproblematic. I'm not sure about Samarium, though our wikipedia overlords say "low to moderate toxicity". Since one of its isotopes has internal medical applications, there are probably some toxicological data out there.

      We'll need to test the compound itself, to be sure; but it probably beats lead.

    2. Re:Toxicity? by worthawholebean · · Score: 4, Interesting

      Pepto-Bismol is Bismuth salicylate if I remember correctly.

    3. Re:Toxicity? by hoytak · · Score: 4, Insightful

      Inferring a compound's behavior from the individual elements is error-prone. Carbon is great and nitrogen is great, but CN, well, not so much. On the other hand, this is more true with organic compounds (containing carbon).

      --
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  3. Re:But...but... by MiKM · · Score: 4, Informative

    Bismuth isn't radioactive

  4. Reality check... by girlintraining · · Score: 4, Interesting

    Lead: Found in damn near every kind of mining ore. Very common.
    Bismuth: 2x more abundant than gold. Not considered economical to mine for it; Usually had as a byproduct.

    So sure, if you want your production costs to go up up and away, killing your competitive edge, use the eco-friendly BiFeO3. Everyone else, keep pushing recycling and consumer awareness. -_- Oh -- and the icing on the cake? Guess who produces most of the world's bismuth? China, the country best known for producing lead-laden products of much doom.

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    1. Re:Reality check... by girlintraining · · Score: 4, Funny

      If your toddler is licking mining ore I think your first court date will be with child protection services, not the manufacturer.

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  5. More reliable than tin? by kimvette · · Score: 5, Insightful

    While it's good that they're getting lead out of toys, etc. what about computers, televisions, and other devices/appliances which are generally not regarded as disposable? Is this new solder going to be more reliable than tin, which is notorious for whisker and dendrite formation, which wreaks havoc with reliability?

    Given that you're on /. I'd assume that you know what tin whiskers and dendrites are, but in case you're not here is a refresher:

    http://www.siliconfareast.com/whiskers.htm

    You can see where this is a problem. And, although it's been discovered that matte tin surfaces and good quality control can reduce the likelihood of whisker formation, what about repairs and installation/reinstallation of components on a mainboard? Replacing integral components (capacitors, sockets, etc.) require high heat, which is sufficient to change the crystalline structure and introduce new stress points for whiskers to "grow," and flexing of the main board from installation of peripherals, connecting devices to sockets, and simple heat/cold cycling will be enough to introduce stress points even in properly-formed, properly-plated components, creating points where whisker formation is more likely.

    Yes, protect the environment, but since more and more electronics are being recycled rather than being dumped in landfills, isn't lead in electronics a non-issue anyhow? I mean, in most localities you're not supposed to chuck monitors and devices containing printed circuit boards in the trash.

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  6. Re:Lead solder replacement by Majik+Sheff · · Score: 5, Interesting

    As a technician, RoHS is the bane of my existence. It doesn't flow right, it doesn't wet right, and it doesn't cool right.

    Because RoHS solder is not a true eutectic alloy it tends to separate when thermal conditions aren't precisely right. As a consequence, many manufacturers had huge runs of products that stayed soldered just long enough to get out the door and frequently out of warranty.

    I hope someone comes up with a better substitute soon because I am sick and tired of cracked solder, cracked solder, and cracked solder.

    --
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  7. Re:$130 / 100g by Chris+Pimlott · · Score: 4, Informative

    And I had never realized this, but our local landfill is positively brimming with discarded medical scanning equipment. I might try to scavenge some of this, but all the discarded MRI machines are clumped together by some unseen force.

    Might want to reconsider that.

  8. Why? by Detritus · · Score: 4, Insightful

    I've never seen a justification for the huge amount of money that's been spent on removing lead from electronics. Yes, the stuff can be toxic if ingested in sufficient quantities. No, it isn't going to leap out of your old TV set and perform unnatural acts on your dog. Tin-lead solder has been used for many decades. It's cheap and it works. I can understand why lead was removed from paint and gasoline. It was creating real problems when used in those products. Why, other than catering to the irrational and unfounded fears of the public, are we removing it from electronics?

    --
    Mea navis aericumbens anguillis abundat
  9. Re:Lead solder replacement by Anonymous Coward · · Score: 5, Insightful

    You've got to love an environmental measure that ensures a significantly higher failure rate in electronic devices, meaning more electronics to trash -- electronics containing materials much more hazardous than lead. Sheer genius.

    People in first world countries have so little to worry about in terms of health issues that they strain to find bogeymen, and lead has become one of the things filling that role.

    I had one couple fly up from Texas just to see my house in Seattle, make an offer on it, and later rescind the offer because the house was old enough that it existed when lead paint was sometimes used. There was no specific reason to believe the paint was lead-based, and much of the house was wall-papered. The mom was terrified of the possibility of lead and her email withdrawing the offer was filled with heartbreak because they really adored the place; they ended up getting a recent townhome in a much less desirable location. One twist: they knew from the beginning that the attic had loose-fill vermiculite that had a decent chance of containing asbestos, and they had no problems with that.

  10. Re:Lead solder replacement by servognome · · Score: 4, Informative

    I haven't picked up a soldering iron in a while, but I've heard that non-lead solder has a lot more structural problems than lead solder. Will this stuff have related problems?

    As an engineer working on lead-free solder development for electronics, the problems that can arise are specific to the application. The industry has developed a number of different alloys that perform under specific conditions. Instead of just choosing a tin-lead solder that works pretty much everywhere, developers need to understand the types of reliability stresses their product will see and choose the best alloy to meet those requirements. For example lead-free solders that work well in a thermal cycling environment tend to not perform as well under shock conditions. From an assembly side of things, a lot of the problems arise from using old SnPb equipment and materials for soldering joints using leadfree solders. Different reflow temperatures, wetting characteristics, and oxides, means that you just can't use the same old eutectic flux and soldering iron and expect the same quality of results.

    Lead-free solders aren't necessarily problematic, they just require a little more understanding to properly use.

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