This Cooler Ruined an entire Company - LMX Liquid Metal Cooler

Yesterday evening I even realized that there is no way to recycle or dispose this cooler in a normal way. Luckily we have a chemical recycling company we work with at Grizzly so I will just give it to them. Isn't it insane that a normal customer would have to deal with that?

So I have 3 of these coolers here at home. They did go on sale at danish retailers, I believe I got mine at proshop. They had 19 in stock when I purchased mine. I remember because they went on sale and I wanted to buy their full stock, but waiting for an email response got it down to 3 and I just purchased those from the online store. If I remember correctly Danamics was a danish company, and at the time the Antec 920v4 just came out, and as a reviewer I reviewed that 120mm liquid cooler against this LMX. The results was that the 920v4 just barely came out ahead. So at the time this cooler was actually great, and I still have one that I have in a system that I use, for a time it was my daily as well. However the cooler was so heavy that they had to make a superleggera version of it, because it would bend motherboards.
I was actually thinking of writing to you and ship one your way given that I am in Denmark and I thought these were pretty cool.
I also want to mention that they did come with fans. All 3 of mine have the same brand (I don't remember the brand) fan with orange light, and they can run up to about 3.000 RPM if needed, they are pretty decent quality and still runs just fine after all these years. The wires do get hot pretty quick, but never too hot. In a case with airflow it isn't bad at all.
As far as degrading goes, I haven't seen any. I see no performance issues on mine still, and the metal is still very shiny.
The way you installed the noctua fan is the intended way, it says so in the manual for it, I still have the original boxes and everything for them. Just those rubber stuff around the mounting holes on Noctua fans was never intended to be on.
Overall this cooler was my go to. I remember clocking a 2500K to 5.3GHz on this one, and running at the absolute thermal limit of that chip, but the Antec 920v4 never had a chance of doing that, it would thermal throttle basically immidiately.

This is perfect for a danger build. With a gigabyte PSU, a pentium 4 overclocked, an rtx 480

The NaK is exactly what was used to cool some nuclear reactors. Reason being they can with stand 200+ without problem while water would boiled. And unlike water that can act as moderator, NaK don't have a big effect on the chain reaction.
So unless you have a nuclear reactor in your PC... you don't need one...

Liquid natrium is used as a coolant in fast neutron nuclear reactors. Indium-gallium alloy pipelines require much different technology of soldering it's pipes, due to alloy's ability to dissolve metals

Please reconsider and look if you can find a tech museum or somebody who wants the cooler in their collection. Is by far one on the most advanced cooler around, and the amount of engineering put in it seems ridiculous, I mean you don't see everyday an magnetohydrodynamic pump!

A valiant attempt at innovation. Now we know. I think they deserve credit for trying something genuinely original.

I think I remember seeing the Danamics LMX for sale at Danish retailer ProShop
Edit: Yep, found it on their site in a snapshot from back in December of 2010.

This is -most likely- an electrohydrodynamic pump. These work by passing a current through the (conductive) liquid perpendicular to the flow which is exposed to a dipole magnetic field in the other perpindicular direction. The lorentz force on the flow is the driving force, basically a liquid railgun. This also means there are no moving (mechanical) parts in the pump, so it is no suprise that it still works well. Btw heatpipes work so well because the water inside goes through a phase change. The thermal conductivity is thus not at all important for it's performance. And in water cooling loops it is all about convection, so again the transport medium thermal conductivity is not important.

Not only does water have a better heat capacity, it also undergoes a phase change in heatpipes. The phase change step takes on so much more energy than heating water.
Heatpipes also solve a secondary problem compared to water/liquid metal; the boundary layer effect, the best flow/fastest transport of volume/sec. in a liquid cooling loop is in the middle of pipe... the heat exchange though, happens on pipe inner surface where the flow is the poorest. Heatpipes forces the transport of heat along the inner surface.
(all modern waterblocks are designed to create as much turbulence as possible to break up boundary layer effect, the liquid metal design here looks like straight pipes thru CPU block, but I could be wrong ofcoz)

The heatsink's controller needs its own heatsink. Good design!

Comparing specific heat capacity of this liquid metal to water is largely pointless as an approximation of usefulness - the ways the liquids are used are completely different. Most of energy transfer in heat pipes is done by absorbing and releasing heat in the phase change (assuming ~50K delta from ambient the enthalpy of vaporization would be around 10 times the energy required to heat the water by this delta in the first place). In the liquid metal case, the advantage is obviously supposed to come from the volume of the coolant it can cycle. Thermal conductivity is quite important then, as the faster the coolant cycles through the cold plate (and through the fin stack) the faster it has to take/release the heat. In other words, thermal conductivity is putting an upper bound on useful flow rate, which directly limits the effectiveness of the cooler.
I think the theoretical limits of this setup are actually better than heat pipes, but it requires insane rates of flow (which is why the pump is eating so much power), and I wouldn't want to be anywhere near a thing that accelerates NaK to speeds it would need to cool better than heat pipes. Or just accelerates NaK, to be honest.

Something you can do with NaK that you can't do with a water pump, is using an electromagnetic pump. Since it has no moving parts, it will essentially never fail, and it should be borderline silent if not completely silent. It *might* also be cheaper, but I can't speak towards that.

Would have been interesting to see the results without the pump running versus when it is.

To me, this looks like a case of the lab built prototypes outperforming normal heatpipe coolers but the production versions, surprise, it doesn't work as well. That, or they just got fixated on this concept.

I love these videos Roman, please dont run out of these obscure products!

I'm so glad you didn't cut this open with a water lance/jet. Never thought a computer device outside a CRT or PSU could be lethal.

9:00 That's probably a magnetohydrodynamic pump! that explains why it's perfectly quiet; the capsule is an expansion chamber

When comparing heat capacity you gotta keep in mind the densities of the materials. If a material has a lower heat capacity, but it’s significantly more dense, it could hold more heat energy for an equivalent volume.

I'm trying to think if there's anything more dangerous they could have filled it with but i genuinely can't. Even mercury would be safer to handle than NaK. 😮

Considering that in your mounting setup a third of the fan was not pushing air through it, it seems quite good. Should have gone with normal sized memory without RGB to be able to mount the fan properly. Results would be more interesting in a fair comparison.

Lol I remember wanting that cooler so badly. Its what drove me to my first water cooling setup since I had $150 set aside and then heard that the cooler was canceled so went and bought my first water cooling kit. Crazy thinking back you got a whole kit for $150 where no days your paying $200 just for a single block.

thats quite impressive for such an old cooler, cool vid

Really enjoying videos of yours, especially those with old and/or wierd cooling solutions. Would you mind to test Zalman reserator 1? It's a bit strange looking like torpedo and being passively cooled i'm curious how does it keep up with modern high power pc components.

Mythbusters have run an episode about "exploding" Sodium and other alkaline metals, using a comically larger quantity than what there is inside the LMX. Yes, alkaline metals can cause minor burns on skin (since skin has water), it can make a nice "pop" sound when surrounded by water, but that's about it. Doesn't explode the toilet (but washes the person using it - thanks 7th grade for the great memories and for providing us with practice "friends"), nor will burn your apartment down. If you want to dispose this small amount, just drop the alkaline metals content in a bucket filled with water. Watch out for splashes and enjoy retaining the "coolest guy in the block" status.

Very cool video about obscure nerdy tech, as usual, thanks Roman! :D

This is crazy, I guessed exactly what is inside as soon as you started talking about what the manual says, AND I had access to one for a while but I didn't know what it was... My friend said that he had some weird liquid metal cooler that he wanted to get rid of, but was worried about throwing away for some reason. Now I get it lol. I wish I knew you were interested in it.

Fantastic video, fascinating (psychotic) cooler!

NaK (Sodium Potassium) alloy is usually used as a high temperature coolant. Commonly used in nuclear reactor.

It's stupid, it's dangerous, it's very good at cooling and it looks crappy. I love it!

A few Nuclear power plants are cooled with pure Sodium (Natrium). Because of the very high boiling point.

Really Neat cooler! I don't remember ever seeing those in the wild, and I guess for good reasons! Great video, very cool.

The reason they used liquid metal is the ability to pump it without moving parts. The pump is a "magneto-hydrodynamic pump". That supply hakes HUGE current, but at LOW voltage. This current passes through the liquid metal. There has to be a magnetic field (wave some steel around the cooler. You should find strong magnetic fields.)
As long as the hot side is lower than the heatsink, heat-pipe scheme is WAY superior. Gravity & boiling/condensing drives the fluid around, so no pump is needed. The heat-of-vaporization is WAY higher then specific heat WITHOUT significant temperature drop. By the way, water is NOT used for heat pipe operating near room temperature. Usually some refrigerant is used which has lower boiling point. Water does not have enough pressure to drive vapor upward near room temperature.
That NaK fluid is VERY dangerous as you state!

When I worked 5 years ago assembling heatsinks, they were filled with 15 drops of ammonia... they never had water, it doesn't work at those scales.

Good start to my morning! Hello to all; hope your day goes well! :)

The conductivity of the liquid metal is important: that will passively move heat through the pipes. So this setup basically uses both forced convection (the magnetohydrodynamic pump) and conduction. That's probably why it performed better than expected.

Whenever Derbauer receives an antique cooler......
"lets cut it open!"

You had me at most dangerous cooler ❤

1:37 So the company was liquidated? Was that metallic liquidation by any chance?..... I'll, get my coat.

Very interesting video! I remember the news articles about liquid metal coolers, but they never went on sale.
Got to thinking if you could take the Noctuha cooler and extend the heat pipes and put a water pump on and omit the fan?
Will it work - an air/water cooler! ?

Did you measure power draw of the pump? I mean - 30 A isn't neglectible even on 1.5V

Haha, what an nostalgia blast from the past. I had one of those back in the days.

Perfect example of "Just because you can, doesn't mean you should"

Chemical engineering major here: at 6:23 you mention heat conductivity being less relevant but you can think of it in terms of electrical conductivity and resistance; heat transfer both into and out of a material depends on it just like how electrical current through a circuit depends on the conductivity of the traces and components. In fact, the theoretical diagrams that were used in the lectures i attended and the textbooks i read use the same resistor symbols. If a material cant conduct heat well, then it means it cant absorb that heat very quickly, even ifnthe heat capacity is favourable.
Another way to think about it is: theoretically a battery may be very high capacity but could only produce low currents due to the internal resistance.
Put mathematically, the convective heat transfer coefficient is directly proportional to the thermal conductivity

Sodium was used for years inside of the exhaust valve stems for petrol engines, to keep the valve cooler.

I like how that it was considered a good sign because it didn't explode during boot.

Looks like a solid little cooler. I would put it on my nephew's 5600x build.

i think there was preview of this cooler in CHIP magazine .. i love exotic pc cooling and this one has a bit of spice in to it ;) how much current this electromagnetic pump draws, pumping metallic sodium ?

"if you think this looks crappy... then, I totally agree with you" 😂

I could see how they thought this would be a great idea. I can think of a severe alteration that would make it a specialty case as the cooler would become part of the top portion of the case or the case would lay on what is I guess typically the back and the top would be a large side panel turned heat sink. The liquid metal would evaporate up and exchange heat with the rest of the cooler case via the pipes and then drip back down into the main heat block. With the low capacity it might(?) mean a faster transition back and forth if the heat can dissipate from the gas state quickly enough. Might have the fins tilted so that air flow would slam into them and be directed out an exhaust as that may help instead of just being flat with air only slightly scraping the sides.
Has this been tested on video before where if the fins are tilted makes a marked difference? I'm not saying oddly bent fins but intentionally directed plates to get air to bounce off in between them and soak heat off them. Granted I can also see this taking heat and adding it back an inch further in but how much so.
Please note I have no idea if this will work. This is just going off what I heard and probably doing what the makers of this item did. Had an idea and ran with it.

Might have done as well if the LMX cooler had complete airflow, looks like the bottom section wasn't receiving air flow.. Awesome vid

I was really interested in this cooler back then, but like in the video, they disappeared as soon as there was any kind of review on them.

Heat pipes are even more efficient because the water goes trough a phase transition.
The transition from liquid to gas with water takes up roughly the same energy as heating the same amount of water from 1°C to 95°C (under atmospheric conditions, a lower pressure also lowers the energy requirements for phase transition ).

Liquid metals are WAY better at moving heat than water or its mixtures. The Prandtl number is the figure of merit that you want to look at. NaK has a Prandtl number that’s about 350 times smaller/better than water. NaK is used becase its liquid at room temperature so that’s a nice feature. Sodium has a lower/better Prandtl number than NaK but the operating temperature must be higher for it to liquefy. Sodium is commonly used inside valves in racing engines. It helps moves the heat from the valve face to the stem. Lithium has also been used for higher temperature applications where it is best. Liquid metal heat pipes have also been made. Liquid metals are electrically conductive, so electromagnetic/induction pumps can be used to move the liquid metal without any moving parts - common for casting aluminum. Any of these liquid metals quickly form a protective oxide layer when exposed to atmosphere. So they are not particularly exciting/dangerous in air. Now if you put them in water, it will reduce the water (i.e., the metal will take the oxygen away from the hydrogen in water) liberating the hydrogen as gas while generating heat, which can lead to the hydrogen bursting into flames. That is a little more interesting.

There are a couple of YT videos of NaK fountains, one called "NaK" by Periodic Videos and one called "Building the most dangerous fountain in the world" by Advanced Tinkering, that show operation of glass magnetohydrodynamic pumps.
I had an idea once that one could make a whole PC cooling loop with glass tubing, nickel-plated blocks and radiators (since the NaK doesn't corrode nickel and steel, but the plating would have to be thick and solid, since NaK corrodes copper and brass) and a magnetohydrodynamic pump.

Sodium is used inside some engine exhaust valves to improve their heat transfer capabilities, maybe that's where they got the idea. But in engines, rather than an electric pump, they exploit the motion of the valve.

Thanks for the video.
Would be cool if you could take out the stuff that is in that cooler and replace it with the liquid metal we have today.

What a great cooler. Damaged fins, fan covering only about half of the fin area and still giving comparable results to probably the best air cooler available on the market. It looks kinda beefy and it was definitely dropped and still only minimal damage and no spills. I'd buy one on a heart beat if they were available

You can pump NaK without moving parts (the NaK is the moving part, and current is flowing through it), so the pump never wears out.

What about boiling point. Heat pipes with water can stop working when too hot right ?

The magnetic induction pump for liquid metal reminds me of the metallic refrigent fridge from Einstin and Plank(?)... Just from my memory, they abandoned that idea because the fridge was "howling like a banshee"...

To check whether it's really the flowing metal cooling the cpu you should have tried to unplug the power to the control board and see if and how much the temperatures would rise.
Anyway, was the fan on constant RPM or was an adaptive speed curve in effect?

I had heard about this before but never thought I'd see a contemporary review as I wasn't sure this thing would even be legal to ship.

Always like seeing something off the wall different. And this cooler sure is different - little too wild for my liking.

Holy crap, the put NaK in a cpu cooler... that's insane!

Could you test out the Cooler Master 212 Evo on that CPU ? Because that LMX Cooler is near similar ... but to be honest most cpu coolers are kinda similar

I would love to have that in my collection. 😁👍

I really was wondering if mercury would have made a better coolant (toxic instead of explosive)

I mean the thermal conductivity of NaK is superior to that of Galinstan, but is it really worth it? I don't think so..

Cool video, never thought some brand done that type of cooler. For that price no fan, for sure it never did it with the pump and explosif liquid metal.

That 10 amp fuse on the controller, damn.

I remember some GPU that used similar solution, back on mid 2000s. Sapphire Blizzard, if I’m not mistaken. Not sure if that even released, as back then I was using NVidia. Just remembered the headlines at the time. Edit: the similarity stopped at the name 😅😅😅

worth mentioning, even if this cooler didn't fail catastrophically. If a user wanted to get rid of it they would likely need to contact a chemical disposal specialist, and failing to do so could also lead to violent results. it's a wonder this was ever considered for retail sale.

How does it compare when you mount the motherboard in a tower case? I guess standard heat pipes work fine in that scenario, so perhaps it's similar to water in that respect... was just wondering because they opted for a pump rather than convection, and they say don't mount a radiator with the pipes above the pump.

awesome thanks for sharing

did you test if it had any difference beeing mounted sideways like if it requires gravity to function well?

I'm amazed the sucker still works. That's a pretty beefy little power supply just to run the pump.

LMAO! This just made me stop what I was doing - they put WHAT inside this thing?! 🤣What in the world were they thinking?! We HAVE to get an interview with these people on youtube, because I have.. so.. many questions 😂

Wow, a molten sodium alloy ( as used to cool some nuclear reactors ) heat exchanger with a magneto hydro dynamic pump, that is truly next level. I am only guessing here but the sodium should be solid when cold and the MHD pump has no moving parts but relies on the magnet at the top and passing current through the alloy, Firkin genius.

That is such an interesting concept, I am curious if this was just a thought experiment gone wild since most sintered heat pipes using some kind of liquid that experiences a phase change in the operating temperature range. How they thought a liquified metal would somehow provide a greater capacity to move heat from the working medium to the fin stack and finally atmosphere is a mystery to me. I'm not a physicist by any means but my rudimentary understanding of thermodynamics is just not getting why someone thought this was a good idea from a cooling performance perspective let alone an engineering safety perspective. Excellent review clearly shows this is some technological oddity, just wild.

I assume the electromagnetic pump has no moving parts, that's actually pretty cool. If only it wasn't filled with dangerous chemicals!

looks like magnetohydrodynamic pump, quite interesting thingy :)

What game is being used to test the coolers? It looks cool and I would like to try it out.

What game is that being played around the 10:10 mark? Or is it just a test demo "game"?

thanks ! i never see anything like that but tbh it was interesting

Truly explosive cooling! LOL

You should compare this cooler to other coolers released in the same year.

4th of July waiting to happen!

While a product that didn’t make to market …. It’s things like this that are engineered, designed, a prototype built etc is how we end up with products that we do on the market. While not a great value product, it seems it still a decent performing product.
Cudos to the company 💪✊👍😇event thou they closed down.

thought this was for Billet Labs. from that title. Oof but, probably I'm just unresolved. All jokes aside, another interesting video. 👍

Would be interesting to see how well the cooler performs with some kind of shroud redirecting the airflow through the bottom of the fin stack as well, as quite a lot of surface area goes unused at the base of the heatsink since the fan won't fit properly in a modern system.
Also with the top fins soldered back into place - which is maybe/probably not doable with the metal alloy still inside the pipes, as it might expand and rupture the pipes, meaning potential fire hazard, and corrosive byproducts - sodium/potassium forms hydroxides by mixing with water which will melt flesh and whatnot on contact - or if breathed in as an aerosol... :P Fun stuff. Still, a bit of cooling capacity would be lost here as well.
Even with these deficiencies the cooler performs surprisingly well. Anyhow, one might well imagine the reason they dissolved the company is that some government safety agency contacted them and informed them there would be no way their product would be allowed on the open market, considering how hazardous the heat conductive metal alloy they use is... lol I can't imagine this thing passing EU CE regulations, honestly.

Im pretty sure NaK is used in cooling loops for nuclear reactors, but the idea is that its peak thermal transfer is up into the 300-400°c kind of range, and it may not perform well as a household item especially as you had mentioned. This is still cool science i guess, but yeah, that's nothing i want to mess with when there are alternatives that are so benign that you can drink them ya know

So its filled with NaK...
Thats very easy to dispose of, if a tad "lively".
Here is how you do it somewhat safely;
1. Get the Nak into a container filled with oil, prefereably mineral oil. (To avoid the selfigniting with the moisture in the air.)
2. Drip it into a big tub of water to react it. (Or chuck the whole thing in for a very lively reaction) *Do it outside, or in a very well ventilated room.* The fumes are not good for you.
3. Once it has all reacted maybe chuck the cooler into the tub to react what remains in the pipes.
The NaK will have been converted into SodiumHydroxide and PotassiumHydroxide.
Both are safe to pour down your drains. In fact, both are used as draincleaners.

I’m sorry for their loss

the fact this held pretty well on high watts Intel tells me it was over-engineered for it's time, no one needed 200-350w coolers back then

It was a neat idea once upon a time

I used to have the same one as you but mine got 2 fans installed with some orange clips. I used it in my i7 4770k. And it did pretty good... but after i sent in my computer for repair and they decided to discard the whole pc instead.. I was so sad because I never got that special cooler back😢

It seems like noctua fan is running a lot faster when mounted on LMX, in game test it reports 1500rpm where it was under 1000 with 12A. I think that's why it performs really close to Noctua. This is still an OK results for an old single tower though. But I don't think the liquid metal helps that at all.
Interesting piece of technology. Thanks for risking the system for testing it for us 😅

As soon as I saw that warning I was almost certain they chose NaK. In senior Chemistry we had to give a presentation on an alloy, I gave mine on NaK.

That pump si actually pretty fascinating. It's solid-state, there are no moving parts inside it to drive the liquid. It uses magnetohydrodynamics to move the NaK through the pipes. Basically, it's a railgun whose projectile is a liquid.
They're horrifically inefficient compared to a mechanical pump but have the advantage of not being ruined by NaK, making them suitable for these applications.
What a terrible consumer product though.