Zinc Whiskers Cripple Colorado's Computers

Mr. Christmas Lights writes "While zinc whiskers, small metallic fibers which grow on surfaces that have been electroplated with zinc, aren't a problem for Christmas lights, they can cause serious problems for computers. The Denver Post reports how they caused computer outages for the last three weeks in the Colorado secretary of state's office. This basically halted business and elections document filings. Zinc whiskers are becoming more of a problem as computers electronics get smaller. NASA has a good reference site which includes a interesting PDF summary paper complete with pictures. /.'ers with computer rooms might want to check this out."

Wow!

[MikeXpop]

Shocking! /sorry, couldn't resist.

You can clean them off...

[Three Headed Man]

...with a magnet!

Re:You can clean them off...

[Three Headed Man]

Who modded that interesting???

NEVER bring a magnet even NEAR a computer! You should know better!

Re:You can clean them off...

[filledwithloathing]

That is a myth. "Magnetic fields and magnetic storage media do mix, as long as the field isn't really amazingly strong. The field has to be really strong, because it has to exceed the coercivity of the magnetic coating on the storage device. Hard drive platters have a coercivity of a few thousand Oersteds, which means a field of the same number of Gauss is needed to demagnetise them. The ferrite magnet on a computer's PC speaker, assuming it's not shielded, will have a surface field strength of only about a thousand Gauss, so it won't endanger hard drive data even if the drive's right next to it. Even 10,000 Gauss rare earth magnets can't wipe a hard drive if they're not sitting on top of it."

Re:You can clean them off...

[Methuseus]

We already have comp salvage yards piled higher than Iraq's (nonexistant) WMD caches.

Re:You can clean them off...

[Doppler00]

This is only funny because Zinc is not magnetic. Right?

No, you can not!

[Poingggg]

Zinc is not attracted by magnets. The only ferromagnetic materials are iron, nickel and cobald.
Magnets will have no effect whatsoever.

I WISH THERE WAS NO ZINC!

[stratjakt]

Zinccccccc Zinnnccccc! Oh my god what have I done!

protecting electronics?

[TexasDex]

Tiny little bits of a conductive material are rarely good news for electronics.

I am wondering if they will have some sort of sheilding system for this in the future, if it becomes more of a problem. That could be as simple as a small layer of some nonconductive resin on the surface of the circuits. But will it ever be economically feasible?

I suppose in the mean time we'll have to do our own safeguarding if we are in a risky area.

Re:protecting electronics?

[McCarrum]

Not sure .. NASA has used an inch of the strongest apoxy that we know of .. and the whiskers just grew right through it.

Re:protecting electronics?

[LostCluster]

I think just setting up The Ionic Breeze from The Sharper Image would be the killer app solution to this problem. Having positively charged metal in the room would be a magnet-like draw for this stuff that'd prevent it from being drawn to the computer equipment by airflows created from cooling fans.

A HEPA-quality air filter is also suggested... on the same concept. It'd be a fan-based air draw that'd trap any of these things coming through and therefore reduce the chances that any given particle lands insi

Re:protecting electronics?

[Tony-A]

I suppose in the mean time we'll have to do our own safeguarding if we are in a risky area.

Hmmmm, seems like if you wanted to grow something like zink whiskers, you'd want a nice stable environment, free of foreign contaminants, and time, lots of time. From this standpoint, a dusty garage is a safer environment than a carefully controlled data center. Problems with monocultures.

Re:protecting electronics?

[tcgroat]

It's called "conformal coating". It protects circuits against humidity, conductive contamination, fungus, and other environmental hazards. There are two big reasons PC manufacturers don't use it:

Anything that adds cost and isn't absolutely essential doesn't go into a product with merciless cost pressure. Consumer-grade PCs will last for years in home use without the conformal coating, so they don't have it.

Anything that increases production time and isn't essential doesn't go into a high volume product. A

Re:Silk screening

[mlyle]

You're thinking of the solder mask-- and the principal purpose of the solder mask is to-- you guessed it-- mask where solder goes. It's not a very good insulator and also there are large areas where a particle of conductive dust would be bad (on component leads, on various places which are left unmasked, probably wouldn't be good in inductors for CPU core power supply, or in the power supply itself..)

More work to do...

[calags]

I guess we have to shave all zinc cats before we let them into the building.

I RTFA and it's not the computers, it's the floor!

[the_rajah]

The metal frames for the raised floor are where the zinc whiskers are coming from. They get sucked into the power supplies and short them out.

"Do the Right Thing. It will gratify some people and astound the rest." - Mark Twain

Re:I RTFA and it's not the computers, it's the flo

[McCarrum]

Yup.

And the metal that the whiskers come from, have been used for computer room floor tiles, racks, and even (shudder) PSU cases.

Now that's scarey.

Re:I RTFA and it's not the computers, it's the flo

[LostCluster]

Which effectively means that it's a component of dust... so if you have dust buildup in your room, you're likely to find this among other problems forming.

Re:I RTFA and it's not the computers, it's the flo

[SuperBanana]

The metal frames for the raised floor are where the zinc whiskers are coming from. They get sucked into the power supplies and short them out.

I'd be a lot more inclined to believe the "whiskers" are coming from movement of the tiles when people walk across them(they do shift, as does the frame slightly) and not some "growing whiskers" BS.

Furthermore, the problem is easily solved via any/combination of these:

• Using the floor for return only(ie, suction) and using good air filters in the A/C units
• Using ducted A/C under the floor if you must do supply via the floor
• Regular maintenance, ie blowing the dust out of power supplies and such, combined with some sort of vacuum to collect the dust you raise
• Using filters in equipment itself
• Wiping all surfaces down with swiffer-ish cloths on a regular basis, ie dusting the place.

Furthermore, if the little buggers are metallic, why don't you just install a few small but powerful magnets in various ducts? A metal grate made up with a set of magnetic rods would probably work like a swell charm, and only require periodic cleaning...

Little problem with the magnets...

[the_rajah]

No, I'm not worried about zapping floppies. Your ideas are, for the most part very good ones, but zinc is paramagnetic, if I recall right, and is not attracted to the magnets. Same for tinfoil, BTW. The magnets would be effective in catching iron filings and related ferromagnetic particles, though, but that didn't seem to be the reported problem in this case.

Your friction hypothesis has merit, too, but growth of whiskers, more scientifically known as dendrites is actually quite common, especially where electric fields exist between conductors. I ran into that in a flexible touch keyboard we had designed using a silver alloy that was screened on as the conductors. Durn things would develop shorts after a while in the field, literally since it was on agricultural equipment. You couldn't see the shorts, but examination under a microscope revealed those nasty little whiskers. A metalurgist was consulted and provided a different alloy that solved the problem.

"Do the Right Thing. It will gratify some people and astound the rest." - Mark Twain

we just finished replacing our Data Center's floor

[jeremyol]

We are in the final streach for replacing the entire datacenter floor where I work because of zinc Whiskers. We had the underfloor area cleaned for the new A/C that blows from the floor up. We promptly lost 11 power supplies and the total count is up over 20 now. We did verify the presents of zinc whiskers in the dead powersupplies thanks to the onsite electron microscope.
Thankfully the high temperature never got above 85 degrees so the old A/C was able to keep up.

Tiny wires?

[MoriarGryphon]

If these things are so small as to require an electron microscope to see, why arn't they simply vaporized/melted as soon as they find themselves shoved between two (relativly) massive wires?

You'd think that a microscopic piece of zinc would go before a macroscopic fuse/chunk of copper/etc. And since it's alot of single pieces blown around, it's not like several million are all going to do it at exactly the same time.

I've melted zinc, and it's pretty snappy, (Pennies after 1982 are mostly Zinc. When you me

Re:Tiny wires?

[rsmith-mac]

If you read the NASA PDF, it notes that you need a certain amount of milliamps to fry the Zinc, so if there's any place where there's a low power device(1W, I'm thinking), then the Zinc would short the device, but it wouldn't get fried in the process, causing a permanent short.

Re:To the naysayers

[Cecil]

No, actually. Microscopes (in the traditional sense of the word) are optical devices. As hard as it is to believe in this day and age, most prisms and lenses don't require electricity.

Re:we just finished replacing our Data Center's fl

[dotmanor]

Hi, It just so happens that I work with this guy and he his correct in his statement. In fact my mom is the electron microscopist on site. Please note this is a VERY OLD electron microsope. around 8 - 10 years old. It doesn't have the ability to look at the lattice structure of a molecule because it simply isn't powerful enough. In our case the zinc whiskers where in the hundreds of microns in size. There is an attachment to the machine that can give you a breakdown of metals in the sample you are anal

It's ...

[ngdbsdmn]

... amazinc.

Google cache

[akgoatley]

Here's a yummy little google cache for y'all. [216.239.57.104]

What about conformal coating?

[winkydink]

I thought almost all quality electronic devices have a conformal coating (non-conducting polymer) applied to PCBs? Colorado must be buying el-cheapo crap. Remember, you get what you pay for.

Re:What about conformal coating?

[zakezuke]

Colorado must be buying el-cheapo crap.

They are not the only ones. Case moders, the hard core ones that use hacksaws, die and tap sets, and large large hammers need mounting hardware. Frankly I never thought twice about buying zinc #6 machine screws/bolts from the local hardware store. While I keep a collection of misc bolts and such, there are those days when I just need a screw. It looks like I have to be more cafeful were I get my screws from.

Re:What about conformal coating?

[zakezuke]

How many case modding overcl0x0r5 are still going to be using the same comp in 5 years?

It's not a question of how long the moder is going to use the case, but rather how long the case is in service. Case mods are not always done by k-rad 0vercl0x0r5. Sometimes you just want more drive bays, more fans, or just want something to freaking fit.

Re:What about conformal coating?

[SagSaw]

I thought almost all quality electronic devices have a conformal coating (non-conducting polymer) applied to PCBs?

Generally, no. Conformal coating is normally only used on circuit boards which will be exposed to extreamly harsh conditions. Unless the designers expect the circuit board to come into contact with liquids or corrosive gasses during typical use, the circuit board will not be conformally coated.

Re:What about conformal coating?

[Animats]

I wish. Automotive electronic units are routinely conformal coated, but most consumer devices are not. Many blank boards have a masked insulating layer on top, but that's different than a conformal coat. A conformal coat is applied after the parts are mounted, so the whole board becomes a sealed unit.

You can conformal-coat boards yourself, using Fine-L-Kote spray. [yahoo.com] We use this stuff on the Overbot [overbot.com].

It's a flammable, toxic chemical mixture until it dries; you need gloves, goggles, a respirator mask, and proper flammable liquid storage. Cover connectors with masking tape before spraying. It's a clear coat, but glows in UV, so you can check for missed spots.

Re:What about conformal coating?

[winkydink]

I like Humiseal, myself.

Re:What about conformal coating?

[Ignis Flatus]

Conformal coating is standard procedure for military electronics. It makes repair a pain in the ass, but it's not like consumer electronics gets much component-level repair anyhow. It also protects against fungus, which is important since most of us are kept in the dark and fed fertilizer.

whiskers grow right through coating

[bani]

it may delay whisker production, but it won't prevent it.

Maybe not zinc whiskers, but tin whiskers exist

[Zarquon]

And are a problem with the new lead free processes.. especially as lead spacing decreases, and the euro lead-free requirement kicks in.

Agere wrote a good article in Analog Zone, available at http://www.analogzone.com/grnt0216.pdf [analogzone.com]. It has a good micrograph showing the problem.

Hospital ORs have problems with Zinc whiskers

[Anonymous Coward]

I work in a large midwest hospital, and we've got a constant issue with Zinc whiskers in our network jacks in operating rooms. Supposedly the origin is the cleaning solutions that they use for the floor.

Re:Hospital ORs have problems with Zinc whiskers

[LostCluster]

For anybody thinking "zinc whiskers in an operating room, isn't that bad for the patients?"... remember, zinc is found in vitamin tablets. It's actually good for the human body.

Re:Hospital ORs have problems with Zinc whiskers

[Hatta]

Zinc metal is not the same thing as zinc in vitamins, which is Zn oxide or sulfate. Your statement is roughly equivalent to "well sodium is in salt, so sodium metal must be perfectly safe."

Re:Hospital ORs have problems with Zinc whiskers

[Artifakt]

The preferred Zinc compound for mineral supplements is usually Zinc Picolinate, which is the form most readily metabolized by humans. Zinc Oxide is frequently the form used in mixed multi-vitamin and mineral tablets, but some nutritionists argue that the manufacturers are cutting corners to save a few cents there.
Zinc Oxide is also absorbed very, very slowly through the skin (as when used in sunblock cremes, so that most of the sunblock's Zinc is washed off instead of entering the body). Pure Zinc metal is not nearly as reactive as sodium or calcium, so it really isn't very toxic compared to them. People eat pennies frequently (4 year old people that is), with few harmful effects, although pennies are mostly zinc with a copper surface.
For comparison, a significant amount of pure sodium won't just give you chemical poisoning, it will oxidize so rapidly with contact with air or water, and liberate so much heat in the process, that the burns you would get from handling or swallowing it would probably kill you as fast as the toxicity, or even quicker.
Yes, Zinc metal fiber in a hospital environment isn't nearly what I would call perfectly safe. Pennies usually pass before too much dissolves, and getting a lot of metal fibers inside a surgical incision before closing is not such a benign environment. Still, there are a lot worse possibilities for substances to get in a wound.

Re:Hospital ORs have problems with Zinc whiskers

[Hatta]

Since you seem to know your stuff, I have a question for you. Why does it matter what the counter ion is? Once it's in solution, doesn't the Zn++ dissociate? And once it dissociates isn't it just going to flow down its concentration gradient?

btw, the extremly exothermic reaction of metallic sodium and water is what I was getting at with that comment.

HP seems to think it's an issue?

[greyfox199]

We have 3 rooms where I work that house our servers. We are migrating some stuff over to an HP-UX system running oracle. When we had some HP representatives come over to our area to check out the place we intended to house the HP servers, they insisted that zinc whiskers could potentially be very damaging and that we make sure our rooms were clean and free of zinc whiskers (not that our rooms were particularly dirty). I always wondered how legitimate their claims were.

Zinc Whiskers

[Zinc Whiskers]

Zinc Whiskers? Hey, they stole my username!

Ok, no they didn't.

its a new BOFH excuse for the rolodex

[ErichTheWebGuy]

#931654: "Sorry, our computers seem to be growing metallic whiskers. What did you say your username was? bwahahahahaha"

I don't know what it's called...

[teamhasnoi]

but old Hammond organs get a greenish-white 'film' or coating on the metallic chassis and parts. Humidity seems to make it worse.

My A-100's chorus/vibrato likes to go on summer vacation when it gets humid in the house, but works fine during the winter. Just thought I'd throw that in - I think the stuff is zinc-plated...

Re:I don't know what it's called...

[ErichTheWebGuy]

It's called oxidation.

according to the article...

[zogger]

...small compact computer designs get these whiskers easier. I don't doubt it happens, but where are all the millions of laptops shorted out then, or the mini itx machines,game machines, etc?

Is there something else here causing whiskers to grow some places and not in others, even though both have zinc?

Re:according to the article...

[servognome]

These whiskers take time to grow and are fragile, you would need to have a situation where the equipment is undisturbed for a period of time, this allows the whiskers to grow, then when there is a disturbance (ie construction vibration)they break off and can cause shorts. I don't think most people leave their computer undisturbed for long periods of time
dendrite growth [reliabilit...sislab.com] has a different mechanism can also have similar consequences. This happens in things like old electrical systems, where you can have mois

another site with pictures

[danlor]

and a narative
Access Floors [accessfloors.com.au]

And Sea-Water too.

[OceanWave]

I know I speak against my own name, here. But:

Living by the sea, especially with the high humidity that comes with it...and the salt...can give your more than just a few zinc whiskers on the PC board.

Salt oxidation--depending on how long the windows are open--can really eat a PC in two years or less; never mind the quality of the MB.

Sea salt is hydrophilic. If it accumulates on something, episodes of high humidity will attract moisture from the air, and add the basis for typical corrosive effects. I have had containers with dry sea salt, which have pulled moisture out of the air on their own.

(Most acids need water...so does salt to release it's own ions, which can have a corrsive effect similar to an acid on metallic equipment...usually involving the non-metal in the salt. Sea salt has lots of chlorine, a very strong oxidizing agent.)

Zinc Whiskers Are About As Much of a Problem As...

[Trolling4Dollars]

...green dots are an audio solution. This smacks of freakish pseudoscience masquerading as real problems. Kind of like the gold plated power cords for stereos that cost audiophiles $180 each. The supposed reason that they improve sound is that gold has less resistance and therefore your amp will perform better if the electricity gets to it more readily. That's bullshit just like the zinc whisker issue.

Re:Zinc Whiskers Are About As Much of a Problem As

[geekoid]

There is a value to gold connectors, they don't tarnish, ergo, the connection doesn't degrade.
Is it worth the extra money? Not usually, but there is a benefit.

However, I do love when I hear people talk about improved 'sound quality'.
I always ask "So, the wires are gold as well?"
Usually the light downs.
I wil admit I have been out of the audio[hile loop for about 20 years. It seemed the widespread use popularity of CD's brought with it a large number of idiots who thought they where 'ausiophiles'.

Us a marke

Re:Zinc Whiskers Are About As Much of a Problem As

[zakezuke]

There is a value to gold connectors, they don't tarnish, ergo, the connection doesn't degrade.
Is it worth the extra money? Not usually, but there is a benefit.

Tin and lead tarnish yet it's still very common place. Silver also tarnishes yet is, or at least was common place on larger ships. Aluminium tarnishes practicly the moment you expose it to air. The wisdom to what you say is the fact that a copper tarnish aka copper oxide is an insolator.

I've been upgrading to gold connectors simply because i've

Re:Zinc Whiskers Are About As Much of a Problem As

[Walt Dismal]

No, this is real. Here's why: a tarnished connector can become a non-linear junction. Tarnish such as a thin film of a sulfide, in contact with a 'pure' metal, can be a rectifier. If you put one on a curve tracer, you could actually see this. So there really is merit in a gold, i.e., non-corrodable, connector.

Re:Zinc Whiskers Are About As Much of a Problem As

[_damnit_]

The real reason for gold plating has more to do with oxidation than the resistance of the different metals. Dending on where you live, those connections can develop problems fairly quickly. I also had someone point out that they paid a LOT of money for their equipment and don't want any dissimlar metal issues. While I'm not sure about the odds of that being an issue, who am I to quibble with him over a 100 dollar cable to hook up 3000 dollar rack equipment?

sweet!

[rsilvergun]

I work tech support. I can't wait to start using this as an explanation of all sorts of things:

Customer: When I go on mah Innernet, I get this error 'bout id not bein' displayed.

Me: Sir, it looks like you've fallen victom to Zink Wiskers. No sir, you don't need to get rid of your cats.

It's the DEMOCRATS!

[Mr. Neutron]

This basically halted business and elections document filings.

They'll do anything to keep Nader off the ballot in a swing state. :-)

Zinc whiskers in my house

[SiliconEntity]

I live within a mile of the ocean, and we have a lot of fixtures in our house which must be made of zinc, because they grow these whiskers just like were described. We have a chandelier in particular which looks like it's brass, but it's always covered with fuzz. Then I have a chin-up bar in a doorway and the same thing happens to it.

I wonder if it has to do with some kind of electrochemical reaction, where maybe there have to be different unlike metals with varying electronegativity, and enough humidity to get a low grade current flowing between them. I never saw this problem, when I lived elsewhere. But if my computers had zinc in them I'm sure it would grow whiskers just like the rest of my house.

similar

[sydres]

problem happens in copper wiring small copper "whiskers" grow right through the insulation. if two wire are close when this happens they can short out and cause fires. usually only happens in really old wiring

Time to retire bugs?

[iamacat]

"It's not my code, it's the zinc whiskers"

As I recall, old computer used to suffer from mice chewing on the wires and they used to keep a cat to keep the programs running smoothly. Then it was bugs and I am not sure if spiders helped or added to the problem.

I, for one, welcome our new zinc-eating nanobots.

Yup

[Zog The Undeniable]

My company has just had to replace the floors at two large data centres because of zinc whiskers. The replacement floor panels will be galvanized, not electroplated.

And before anyone points out that they're the same thing, they're not. Galvanizing involves dipping steel into molten zinc. Despite the name, it has nothing to do with galvanic action, electroplating or Mr Galvani. Galvanized panels don't suffer from zinc whiskers, anyway.

Re:Absolutely no way

[McCarrum]

(rolls eyes)

Where I used to work, we had this issue - in our case they grew from the cheap computer floor panels in the room. The case was so bad, you could see them in direct sunlight, and the flowed in the breeze like grass.

We had no choice but to go through cleaning, as the underfloor was about to be used for blowing air to new systems, without it, the zinc whiskers would blow free and cause hell on all our systems. As it was, three systems failed in the week after the clean. We don't want to think what would have happened if we didn't clean it.

It's not bullshit. Get over it. Interestingly, there are very few people who know of this issue, but knowledge is spreading.

Re:Absolutely no way

[NigritudeUltramarine]

It's not bullshit. Get over it. Interestingly, there are very few people who know of this issue, but knowledge is spreading.

There are tens of thousands of data centers in operation in the United States, and likely an order of magnitude above that worldwide.

In each, often hundreds (or even thousands) of computers are consolidated in one room.

You simply cannot convince me that this is a real problem that we need to worry about. Yes, OBVIOUSLY you don't start pouring out bags of metal filings into your ve

Re:Absolutely no way

[Smidge204]

Zinc whiskers are quite real, and they can pose a hazard. The reason you don't see data centers around the world having this problem has many aspects, some of which I can think of include:

-Too new. It takes years for these whiskers to grow to any length (1mm/year), and it may take years before it even starts to happen.

-Only happens to electroplated surfaces. Dip galvanized objects (Like electrical boxes and bolts and such) don't seem prone to this effect.

-Newer machines are more vulnerable with their more delicate circuits and smaller, tighter tracings and pins. A data center with older machines might be all but immune to it simply because the equipment is old and robust enough.

High taffic areas they are likely to get stomped on/eroded away long before they pose a problem. So you would have to have a situation where you have a spot like under a table, where you have objects electroplated with zinc sitting undisturbed for a long time, then get disturbed. Then you would have to be unlucky enough to disturb them and get it into the air.

Ironically, there are wood based floors used in data ceneters with steel reinforcing on the back of the tiles that are zinc-electroplated (thus being essentially undisturbed for years). So if a fairly old data center, that happens to have the right (wrong?) type of flooring, undergoes an upgrade or reorganization... well that might do it.

Now if these guys ARE just using it as an excuse, that's another story. But that doesn't make the problem any less real.
=Smidge=

Re:Absolutely no way-Silent killer.

[ArsenneLupin]

Reminds me of Asbestos. Silently waiting, until disturbed.

Actually, in addition to have the potential to kill your computer, these fibers can do damage to your lungs to, just like asbestos, according to the PDF

Re:Absolutely no way-Silent killer.

[Basehart]

If a /.'er falls in the computer room, does it make a noise?

Re:Absolutely no way

[shostiru]

You simply cannot convince me that this is a real problem that we need to worry about.

and therein lies the problem: you just asserted that this is an item of faith for you, not reason; facts be damned, you cannot be convinced.

Never mind that there are several companies who do raised subfloors who've been addressing this problem for some time. They're all peddling snake oil, and NASA is helping them do it.

Never mind that Zn whiskers grow slowly, Zn-electroplated subfloor panels in data centers aren't that old, and PC board density has been increasing. Or that they only occur on electroplated zinc, and only grow long enough to be problematic in very low traffic areas. Nope, must be bogus.

Never mind that hospitals are affected as well and take this seriously. Or that the condition is well known among electroplaters and materials engineers, and was discussed at least ten years ago in the literature. Or that it's been involved in at least one product liability case [finishing.com]. Or that Bell Labs has known about it for over fifty years (since 1948).

And never mind you could have found everything I mentioned above within the first 30 google results for "Zinc Whiskers". Nope. It must all be a myth, because there's no such thing as newly discovered age-related problems.

(Oh, and I hear that automobile corrosion is a myth too ... I went to the new car lot and looked around and didn't see any, so it must not exist)

Cisco and others have known at least since 1998

[shostiru]

It's also worth noting that, at the finishing.com link I gave above, you'll find Cisco and well-known companies have known about this problem since at least 1996. Or perhaps finishing.com is involved in the conspiracy, or Cisco power engineers are idiots.

Re:Absolutely no way

[rcw-home]

and therein lies the problem: you just asserted that this is an item of faith for you, not reason; facts be damned, you cannot be convinced.

Extraordinary claims require extraordinary evidence.

Risk = probability * loss. Since loss is obvious and fairly constant (a flaky or inoperative computer), if you want to hype this risk, besides just showing clear evidence that zinc whiskers are increasing the probability that a computer will die, you have to show to what degree that probability is increased - that is, that it merits more concern than other obscure things that can cause a computer to die.

Re:Absolutely no way

[shostiru]

I did provide a link, and Google has more, but I'm not going to go to the library and scan metallurgical lit articles to satisfy your skepticism. If you don't want to believe it, that's your business, but I find it baffling ... I just don't see what's so extraordinary about a known phenomenon (Zn whisker growth in electroplated coatings) and a known failure mode in electronics gear, just because it's showing up in a new environment (data centers). This is NOT new, it's just new in this environment.

Given

NASA?

[commodoresloat]

They're all peddling snake oil, and NASA is helping them do it.

Well, if those guys are involved, you just know it's a hoax.

Re:Absolutely no way

[_damnit_]

I love this kind of stuff. Clueless moderators mod the parent insightful because none of them happen to have any personal experience with the subject. Lack of personal evidence does not constitute a conspiracy. Really, it doesn't.

I have personally known about whiskers for over five years. It was becoming a potential problem in an old datacenter at work. It is a serious condition that datacenters with critical machines (or contractual obligations) take into account in datacenter design and maintenance. With 5 9's required for a lot of machines (Hitachi, IBM, Unisys, etc) there is little room for allowing electrically conductive dust particles to flow across every board on your machines.

The other posters have given examples to satisfy the typical /. need for anecdotal evidence, yet you groundlessly claim that the articles anecdote MUST have some other explanation. Why? I am all for being a little skeptical, but there is such little reason for it in this case. Would you begrudge them the opportunity to clean out their under-tile areas? Most of us know how bad those areas can get regardless of the whisker issue.

Re:Absolutely no way

[Anonymous Coward]

I call FUD on your FUD call. There are many documented instances where metal shavings stopped computers.

1. pacemaker recall.
2. F-15 Radar. Google for B. Nordall's port in Aviation Week and Space Technology
3. Patriot Missile II (Anoplate, Suspected tin whisker related problems, Fall 2000) [anoplate.com]
4. Nuclear Utilities [nrc.gov] Tin plated contact support arms on relays grew tin whiskers causing a resistive shunt path.
5. Rocket motor starting [umd.edu]

But I could google on and on. Hey, poster (NigritudeUltramarine). Care to explain y

Re:Absolutely no way

[Lumpy]

I so agree with you.

back in college I paid my way as a maintaince guy at a foundry. we had rackmount Pc's that would have almost 1/4 inch of metal/sand dust on the motherboards and the computers were STILL working.

Cince then I have worked as a freelance consultant and specalist for many different companies that certianly do not have their computers in a "clean room" (machine shops for the best example) and they never EVER have these problems and they are exposed to nasty air + metal. The worst was a water filtration plant I worked at for 7 years where a workstation for monitoring the vats of hydro-flouro-sisicilic acid ( what they put in your water to add flouride) a product that is so corrosive that it eat's through the rubber lined fiberglass tanks within 3 years had, just by the amount released in the air during tank inspections, had eaten almost all the legs off the surface mount chips on the motherboard and it was STILL operating.

Maybe some really REALLY old mainfraime computers might see the problem in a 20-30 year lifespan that the article suggests, but even the PDP-11 I saw back in college that was retired in the basement but still maintained operating by students did not have any problems like this.

Re:

[account_deleted]

Comment removed based on user account deletion

Re:Absolutely no way

[shostiru]

Those rackmounts you're talking about are frequently built for shop environments ... and older equipment was a lot more rugged anyway. You probably wouldn't have to worry about a PDP-11. I've seen metal dust kill sensitive equipment, I have no doubt it happens.

Metal whiskers aren't usually a problem on the mobo itself (everything is conformal coated) but on exposed metal -- surface mount devices for example -- and especially in power supplies. And even then, it's only a problem if you can't take (or blow through) a 50-300 ohm short every now and then. Newer equipment is a lot more sensitive -- denser boards, less slop in timing and signals, etc ... and of course manufacturers cut costs wherever they can, even on networking and server equipment. Unless you can afford NEBS or industrial grades, "server grade" rackmounts aren't necessarily any more rugged these days than consumer grade crap.

But it has been a problem outside of data centers, especially where you're looking at small (analog) signals with high input impedence. Examples include medical monitoring equipment and scientific research equipment, and it's why you don't see established manufacturers of either using uncoated, unalloyed zinc electroplating, especially in humid environments.

Re:Absolutely no way

[Tony-A]

we had rackmount Pc's that would have almost 1/4 inch of metal/sand dust on the motherboards and the computers were STILL working.

Contacts that are exposed to a "harsh" environment generally form a very thin non-conductive film due to oxidation and/or corosion. This would also apply to any conductive surfaces. Depending on exactly what gets laid down, what you describe seems completely reasonable. However, something in a "clean" environment can easily be killed by something your self-protected PCs wouldn't even notice.

Re:Absolutely no way

[confused one]

It's not BS. Although it's not Zinc, growth of copper or iron wiskers inside high-tension transformers (as in the ones used by the electric utilities) is one of the reason they fail.

Re:Absolutely no way

[LostCluster]

This is really just a subset of a larger problem... dust.

Any particle that's floating in the air that isn't a gas simply doesn't belong in a computer room. However, any time you've got humans in the room dust is sure to form. Dust can cause a computer to overheat, and these guys are just pointing out that if you ever get small charged particles flying in your room you've got real problems.

Computers most certainly can be run in a dirty room without immediate failures... but the dirtier a room happens, the

Comments from the poster

[xmas2003]

A few comments/followup from the poster, Mr. Christmas Lights:

1. I first like to thank simoniker for adding the "small metallic fibers which grow on surfces that have been electroplated with zinc" to the article - made it more understandable/readable.

2. The NASA URL is one-level deep (a mistake on my part) - here is the top-level. [nasa.gov]

3. Related to #2, I would STRONGLY recommend /.'ers actually READ what that says. The Denver Post article was written by a reporter - would you expect that to be technically accurate/broad/etc? Again, take a look at the NASA site [nasa.gov] which DOES present a compelling case that this is a REAL issue and not FUD. The original study with the medical equipment makes for facinating reading.

4. Some Anonymous Coward seems to have a problem with my nickname. Did you actually click on the "Mr. Christmas Lights" and see what is there - tell me that isn't appropriate (it's been used before BTW).

5. The same AC made a smart-ass comment about the Nigritude Ultramarine SEO contest - while I'm aware of that contest (#4 above is a hint for 'ya!), I'm currently ranking #199 for the keyphrase with less than a week to do, so I'm not a contendor ... although I do rank #1 for the phrase Nigritude Ultramarine Hulk [komar.org]! ;-) ... and I actually did submit a wrapup article a few days ago about this, but it got rejected - good news is the contest is over July 7th, so all those N-U links will go away - they are a bit annoying.

6. I haven't seen anyone comment on a business (verus technical) aspect of the Denver Post article (but this is /.) where some state mucky-muck basically says this is a reason to bring all state websites under one authority and talks about $7.5 million in funding. One wonders if some empire building going on and/or play for more money!

7. There have been several Denver Post articles about the failure of these computer systems. I didn't mention that fact in my submission because I thought it would be too lengthy, but apparently the inability to electronically check/file business/elections stuff has been a real big deal - good example of our dependancy on computers.

'Nuff random late night rambling!

Re:Absolutely no way

[muonzoo]

Well you better start doing your homework.

I worked for many years on a replacement Air Traffic Control System [raytheon.com] for Canada [navcanada.ca] and as the project matured, our stage - lab (containing litterally hundreds of machines, a complete lab recreation of the coast-to-coast ATC system) started to experience an MTBF on the power supplies in the equipment [openpa.net] that was over an order of magnitude smaller than spec'd by the manufacturer (Hewlett-Packard).

Since this was a long-term contract that included commitments to deliver over an extended period of time (25 years), the material cost of this problem was VERY significant to the equipment vendor, not the customer. (In other words there was no financial motivation to fail to find fault, quite the opposite; the fault was costing them money.)

In the spirit of "old HP" they sent us some senior hardware design guys to look at our lab and our environmentals (humidity, temp, pressures, cycles and power suppy spectra) to see what was causing the problem.

Being about 6 years ago -- I hadn't heard of the Zinc problem yet, and neither had the guys from HP. They took everything back to their labs, including about 6 failed supplies and a couple 'still good ones', some from reserve stock and some from working machines.

A few weeks later they came back; there was a big meeting -- this was an issue with potentially enormous cost -- including the ultimate customer's representatives.

I can remember the Project Manager practically spitting his coffee when informed the underlying cause. The 'special ESD safe A/C'd lab' was part of the problem. Thank fully, the final deployed environment had different flooring, so we didn't have to change the sites, just some modifications to the lab.

This is far from BS -- it's a problem that has cost millions and will likely cost millions more before it's over. But the SEM photos of the failed devices we cool to see.

Re:Absolutely no way

[Ark42]

Power supplies? Makes me wonder if the issue goes back to the old capacitor problems with the bulging and exploding and stolen electrolyte, etc..
I know I've seen more then just motherboards with bad capacitors and done a bit of soldering now. Heck, I have a linksys 10/100 switch with a single buldging capacitor in it, not to mention the Antec power supply with several bad ones as well.

Re:Absolutely no way

[Kevin Burtch]

Capacitors (electrolytics, anyways) go bad over time, that's a given.
I just replaced a pair of 680uF 180V caps in the power supply of my Deskjet 1600CM, as they failed catastrophically, but it had nothing to do with zinc whiskers.

Re:Absolutely no way

[shostiru]

Worked with many switching power supplies? We aren't talking about bulky transformers here where all signals are high current and you can slap a crowbar across the secondary and still not kill it.

Switching power supplies can be surprisingly fragile. I've killed a couple working on TVs (that's basically what a flyback circuit is) and you can do it in one or two cycles (of your AC, not CPU cycles). And no, you don't want to know how much those power transistors cost. And I've killed computer PS by shorting across IC pins. There's not a lot of current going through these, and a 50-200 ohm short will definitely do the job. Remember, it only has to conduct long enough to nuke the chip.

Or maybe you'd prefer to ask the Cisco power engineer [finishing.com] about it. Naah, he probably doesn't know what he's talking about.

Re:Absolutely no way

[Kevin Burtch]

True, while this is a slight possibility, it is _very_ slight (as in life-on-mars slight), the likelyhood of this being a sudden all-at-once problem for an ENTIRE SITE, is... miniscule (as in life-on-the-moon).

I've worked in many server rooms with raised floors and zinc-plated support structures... many of which were so old they still had the (grandfathered) HALON systems in place.

NEVER have I seen a problem of this sort.
And most of these places have been fairly close to the beach in South Florida (read:

Re:Absolutely no way

[whoever57]

Switching power supplies can be surprisingly fragile. I've killed a couple working on TVs (that's basically what a flyback circuit is)

I think that the flyback converter in a TV is rather different to a switching power supply in a PC. A TV needs high voltage to power the tube, while a PC needs, what? 12V at most! I don't think PC power supplies use flyback converters.

Now, with high voltage circuits, it is much easier to blow things up!

OTOH, I have seen several capacitors blow in power supplies. Most li

Re:Absolutely no way

[gessel]

You'd think that, wouldn't you....

In one of my jobs I got to set up an $800,000 prototyping shop with nice CNC equipment and all that. One of the toys I bought was a 350Amp Synchrowave welder. It was hard wired into the 460V main service we built into the building, all brand new freshly installed from the 10kv transformer to the disconnects. 600Amp 3 phase 460V service just to my little shop.

First night there I figured I'd try the welder out, flipped the disconnect, hit the start button on the welder a

Re:Absolutely no way

[stuktongue]

A whisker doesn't have to survive conducting enough current to let the smoke out of the power supply - in it's incandescent passing, if the ghost of it's exisistance is a sliver of plasma, a very substaintial, if evanescent, conductor is created, literally, out of thin air.

Thanks for this, gessel. In the aerospace industry, where I work, tin whiskers are the problem. In a vacuum (test or on-orbit), a shorting whisker can result in a plasma condition that will arc, allowing literally hundreds of amperes of

Re:Absolutely no way

[Kevin Burtch]

I normally don't reply to ACs, but what you're describing can only happen to a power supply that is OFF for extremely extended periods of time, with some other fan causing airflow into it.

Not gonna happen.

Each whisker that hits it will be vaporized long before your hundreds can build up.

Think about how thick a 3A fuse is, the fibers they're describing would have to pile in the THOUSANDS for this to happen, and all at once at that!

Re:Absolutely no way

[Kevin Burtch]

Have you ever touched a 9V battery to a pile of steel-wool?

In case you haven't... the steel wool (which is many thousands of times thicker than the micro-fibers we're talking about here) instantly ignites and burns, even though the 9V battery has a tiny fraction of the current capability of a computer's power-supply. The amount of current that is tapped is miniscule, as the fibers that are actually MAKING the contact are instantly destroyed.

The remains are non-conductive, as they are completely oxidized.

Re:Absolutely no way

[Kevin Burtch]

First, I've done the 9V battery to steel-wool trick more times than I can count, and I've _NEVER_ seen any metal welded to the terminals.

Zinc != aluminum.

Aluminum oxide insulates it from further oxidation.

Zinc, on the other hand, is used as a sacrificial anode for electrolytic corrosion.
To do this, it must oxidize MORE readily than iron.

I've seen plenty of carbuerators that were pitted to the point of being useless that have never been near any beach. (the vast majority of carbs are cast from zinc as it

Re:Absolutely no way

[Kevin Burtch]

No, _I_ mentioned aluminum, as aluminum has the properties you describe, not zinc.

Zinc turns to powder when weathered.
Aluminum does not (unless heavily exposed to salt-water).

Zinc will melt in the heat of a small gasoline fire (my cousin is a klutz and melted his bike's carb into a puddle).
Aluminum requires DRASTICALLY more heat to melt.

My point is, zinc DOES oxidize readily, especially when the surface area is great (what I've said repeatedly).

Re:WOW!

[shepd]

They are only blocking slashdot referrers.

IE-ers can drag the link to their address bar.

Re:WOW!

[sweetooth]

The same works in most browsers... Firefox for example.

Re:WOW!

[dncsky1530]

You made a big mistake by letting the /. crowd know that you use MSIE [brimonet.com]

Re:WOW!

[whoever57]

IE-ers can drag the link to their address bar.

Or configure your Squid cache to block the referrer header.

Re:any one hear of dusting?

[Anonymous Coward]

Dusting, god no. The last thing you want to do is get these fuckers airborne, that's when they start to cause problems. They get sucked into a tower or rack by the air convection, and wind up settling into places they shouldn't. Next thing you know, you have equipment shorting out.

Forget the duster. Cleaning will probably involve mineral oil, or some other decently viscous but harmless liquid, being sloughed across the floor, sponged up, then washed away using conventional cleaners. The oil would weigh dow

Re:Humans and technology

[Methuseus]

What's so bad about DOS? Wasn't that Microsoft's glory days when things often worked as they should?

Oh, you said DoS. I'm sorry.....

Re:Never had this problem.

[shostiru]

Most of the zinc-plated ducts I've seen are galvanized, not electroplated. It's only a problem with electroplated zinc (not alloy), galvanized doesn't have the same stresses inducing whisker growth.

Re:Never had this problem.

[_damnit_]

Nice anecdotal evidence. You'll fit in here just fine.