I have literally never had to change thermal paste even in 13 year old build. I don't know what kind of paste you use....Direct die applications should use a silver liquid that is fully conductive. (I know it's hard to apply, just learn :)
@@shanemitchell477thermal paste drying out is a known issue. Just because in your extremely limited experience it didn't happen (probably did and you just didn't notice)it doesn't mean it's not an issue.
@@msn8ive graphene is strong in-plane, but any defects can vastly reduce that so durability is definitely an issue from tearing due to said defects. The lifespan is good as long as you are not moving it.
there are varying qualities, but generallt the thinner ones work better. they dont bend or twist well so its nice to get it close to the space available, and know how much of a gap is left between the cpu and the heatsink. youd still need something to fill the gaps, its not soft, and doesnt fill those gaps... but you dont need so much... since its harder than the silver it should press through and still make contact. i really wish i can get some legit graphene and try some stuff... i usually leave the old stuff on there and burn it in... if it starts crumbling mix it into the new paste. in theory you can do the same with the graphere as it falls apart... just you have to keep in mind its nanoparticles... if the pad ever breaks up on you. best vacume that thing out... pretty much the only downside is how fragile it is.
Coming out? These pads have been around for 6 years ^^ At least I have been using them for that amount of time. The thermal grizzly ones have been around for at least 5 years now.
Similar to that, I like using them when I'm testing a CPU or motherboard to sell. I'm only going to have it built up for maybe 30 minutes to an hour or two, so it seems a bit wasteful to use thermal paste. Plus, if I were to use paste, I'd have to properly clean it after the fact. So, it's just far easier to use a graphene sheet.
Or for someone who is super worried that they're not putting enough paste or they're putting too little past. For me, the price is too high for my use case.
@@shinaikoukayes and no. According to Roman, they’re single-use. It will compress under the cooler and stay that way. At least you’re gonna lose performance with each additional mount. That’s the difference to graphite pads. They’re reusable.
You can apply them bad in so many ways. 1. Touch them will destroy the anisotropic property of the sheet. 3. The more often you reuse them the more the thermal conductivity shrinks. Because every time you apply the sheet and compress it, it degrades.
To be honest, as someone who often negelects changing their cpu paste, I might go with these in my next build since it's easier to change and less of a headache.
Nah. Endurance oriented pastes don't really need to be replaced for the life of a build, and they perform about the same at their worst (after aging) if not better than good carbon sheets. Phase change polymer is an interesting option for something you want to just install for life in a laptop or GPU or some such like. Better performance than paste, close to liquid metal without the corrosion or the hazards or ageing.
Since I discovered these pads, I am only using it. It might not be the best for cooling, but it is so practical and clean. I don't have to worry if I used the thermal grease properly or clean it. Also the fact it does not degrade over time is a big +. I really love it.
@@leszekzajac7772 Just like any business out there, they'll tell you that it's only "a one time use" to get you to buy another since they want that profit. Can't make money if they're reusing the darn thing. Let's be smart
I really like how much attention to detail DerBauer has with their designs. These pads are honestly a huge deal for maintenance purposes. It's expensive but you're paying for the longevity and lack of maintenance. I picked up a few of these for my builds and I added them in my neighbour's kids' computers too so that they can be better maintained. I love these.
@@lurch789 Pointless comment as it has nothing to do with the lifespan of graphene - you obviously used all your training in materials science to espouse an opinion without justification for giving that opinion.
Totally agree. If you have time to answer: What size are you using for the 7900 XTX? I’ve been trying to figure out which size to order for one of those.
I've been using graphene pad for the past 5 years on 3 of my machines and they are solid performers and for someone like me who loves to upgrade its a huge time saver. And yes, I've reused them.
I've been using Carbonaut pads since my 3600XT. Upgraded to 5700XT and... no problems. I find it runs maybe a degree or two warmer than a really good paste application but... you can go back two years later and the CPU lifts up effortlessly. No twisting, no bent pins, no mess, nothing to clean... I'm surprised you haven't been using this. ThermalGrizzly is the shizz.
For real I was once took out my AIO to replace the paste, it was so hard I end up pulling the pump together with the CPU 😂 I was so shocked, I thought I just broke my motherboard together with the CPU 😂
@@Fate025I think he meant the previous product. It was like a soft cloth pad. Don't remember the product name. But TG definitely had a really comparable product before. I used it on my 6700K but it was damaged (user error maybe?) so I could not use it anymore after the platform change to AM4.
This video is a prime example about why I watch this channel and not other tech channels. One of Jay's videos helped me many years ago to make a good purchasing decision. I love that this is actual hands on instead of just a show and tell video. Using the thermal paste first and then two tests with the pad afterwards is exactly what viewers need.
Jay is great, but for the love of grud, please do not base purchasing decisions off of 1 person. Do your own research and as Jay says... read the f'n manual! 😂😂😂
@@swampmonkey420 The video was not a specific product. My previous PC died and I was doing research about the difference between AMD and Intel CPUs. Jay had a wonderful way to explain the differences. I knew that Intel usually overprices their products and every CPU change meant a new socket. Jay explained the PCIe lanes situation well. That also happened to be the year when AMD CPUs were finally better than Intel CPUs. Since money was and is a rare object, I had to go sort of low budget. Ended up getting a new first gen Ryzen CPU. Six years down the line, it still proved to be a great choice since it still out performes the Intel CPU that a friend of mine bought a year or two later. The only issue that I ran into recently, was one of the memory channels on the motherboard failing.
I have to give a vote for the longevity. This would be great for servers, embedded systems, and also for your friends and family builds because it should just work. Someone mentioned a test bench sure that would be handy as well. So I see this as great for anyone who values reliability over absolute performance. So now you need to try it with LN? It can't freeze so it may be great for extreme cooling
Thanks for sharing this Jay and Team! I’ve been eyeing these for a new build but really wanted to see someone testing them before I bit that bullet. No hassle, no mess, no thermo efficiency degradation is definitely a plus for a system I don’t plan to change cpu, mb, coolor on once built.
On the cost budgeting/value side. I normally buy at least 2 uses worth of thermal paste, because I dont build PCs very often, I need the option to retry if the first application is crappy. The graphine pad can already be reused so I'd be confident buying it once. So that boosts its value too.
Free idea. I would like to see if there's a performance difference between the KPX and the graphene sheets at liquid nitrogen temperatures. Also thermal paste will eventually freeze up but the graphene sheet could keep going. Maybe Jay will get back on the leaderboard?
Ive been using one on my gaming build for the last few years. Being able to replace the cpu and not have to deal with any sort of mess was a game changer for me. Currently running a Ryzen 9 5950x and using a Be quiet dark rock pro 4 cooler and it stays very cool and have had no issue with thermal throttling or high temps. I definitely think its worth the price just for the ease of use and being able to re use it if you swap out and upgrade parts.
So I have a NH-D14 and get 85-90 and not sure if that is hot or if I should get a dark rock pro 4. Hopefully you get back to me id love to know if getting 80 or lower runs better. Have a 4090 also bit of a weird build.
@@dylanbeazley6739 That's on the warm side. Do you have your fans in same direction? How you controlling fan speed,letting the board do it,or manually? That's a good cooler. Shouldn't be hitting that unless you have a Monster Intel Heater on that! Maybe you got the mount a little off when you did it,or not enough paste coverage. Doesn't take much to throw it off. I have the NH-D15 SE-AM4 and it's a BEAST !! I have 1 fan pulling,also makes it quieter,and other over Ram Pushing. (This may not work for most cause of the Height sitting above the Ram,I sit in Open Air so it Doesn't matter on My config)Seams to work best on my Ryzen 1800X. I also used the Paste to try from Noctua,which does work VERY well,but my go to is Arctic Silver 5 ! You CAN'T go wrong with that !! Used it for years ! It doesn't hurt to check your pattern before you crank down and fire-up! Just tidy-up the goo with a card,i personally use a toothpick and evenly spread it ALL over the CPU ! That way I KNOW it HAS FULL coverage across the whole die and not too much. I know someone is going to Grind on me for that ! POO ! It works for me ! I know LINUS would CRINGE at seeing that ! Hope that helps with your Temps ! 😎
Appreciate it mate I read the whole comment even though I worked it out haha. Had the cooler for 10plus years and the middle fan was much slower than the outer one I noticed a few days after my comment. Got a phantom spirit and now it's perfect :D Thanks again mate. @@phyde1885
As an end-user, this seems really useful. Yes, it's more expensive than a 1 gram thermal paste tube but the appeal of "apply once and forget" is definitely there, especially if it's on par with one of, if not the top performing thermal paste on the market. The conductive part is a little worrisome but as long as there is no contact with any motherboard components or traces, it should be fine. I do wonder, can we see a GPU video with this pad in the future? Whether it's with the stock air cooler or a watercooling block is up to you of course!
One thing that minimizes the risk of conductivity is covering up the entire CPU except the top of the heat spreader with a contact frame replacing the default locking bracket. Thermal Grizzly also makes these, but their design is too dependent on correct screw torque, Thermalright bracket is cheaper and better in practice. It's meant to prevent the problem of 12/13th gen Intel bending under tightly screwed coolers, but the side benefit of protecting socket from thermal paste spillover was notable enough that they made an AMD version too.
@@Reirainsong Fun random fact. The Thermal Grizzly method of turning by a set amount is actually more accurate than a torque wrench when it comes to ensuring the right amount of force is applied to the fastener. German engineering for perfection vs "good enough".
Can confirm. I've got several IC Graphite brand graphene pads on numerous different systems that I've been running for 5+ years without any issues. I've swapped coolers on a few of them, had a mobo failure on one and swapped it out used the same pad, cooler, and CPU, no problems at all. Heck the system I'm using right now to write this has an old 3950x with a graphene pad and a Noctua nh-u12s (to fit in the rack beside my desk) and have had no problems with longevity or temps. Did my own tests years ago and found them to be on par (within margin of error) of most thermal pastes I was using at the time. The best part really is when something happens and you have to remove it you're not stuck trying to pry the cooler off the CPU without damaging anything, no mess- no fuss. I am honestly surprised to see you so late to join the party on this one. A number of other channels also came to similar conclusions years ago when they came out. There are plenty of stories of people reusing the same pad 30+ times on test benches.
Just before I built my current system I had to dismantle and refresh the thermal paste on my older system due to age. I saw these and decided to use it on my new system. My concern was if it would work comparably to the thermal paste that I was using. So I watched it very closely for the first month. It has worked perfectly for me and I am quite happy with it. For my purposes I do not mind the extra cost for this convenience and cleanliness. I do agree that depending on your reason for the build/rebuild it may not be as cost effective as thermal paste. But for me it is worth it.
Graphene pads work as well, within "no discernable difference" from a decent high quality paste, it is reusable, but more expensive. If you don't reuse it, you wasted money. If you spent 20 minutes cleaning paste residue, then it kinda depends on what that time stopped you from doing, so for "professionals" testing CPUs, just that alone would be much of the extra money, even if not reused. But as an end user, it's benefit is mostly reusing it. That means the old CPU/socket needs to go to someone who either gets a paste solution (for example, a hand-me-down) or you sold it without on, for example, eBay, because otherwise this pad goes with the CPU, so it is not going to be reused.
I just finished my new 2024 1440p build this last week & used the 33x33mm Thermal Grizzly KryoSheet instead of thermal paste. My stock AM5 Ryzen 9 7900 CPU (w/DeepCool AK620 Digital cooler) idles continuously at 35-38 Celsius in my air-cooled case & has yet to exceed temps in the 60's range while gaming or doing CPU intensive tasks.
I can only find PTM 7950 which all has 0.2mm thickness.. in vga they got different pad thickness.. should we just sandwich the ptm pad? Or do they have other thickness?
It would be very difficult, the nature of these pads limits their thickness. You’d have to use copper shims etc. They also don’t compress, might be fine for memory modules but the heights of the caps and chokes and mosfets on the power delivery is not as tightly controlled so going with shims and this stuff makes it quite the challenge.
I really love the video, but I think this content would greatly benefit from you providing graphs for the data as well so that we can better visualize the relationship between the thermals and the voltage
@@MurdahBassRecords Don't get defensive, I've been subscribed to Jay for over almost a decade now. I was watching him when he used to do COD Commentary back in the ancient times. Constructive criticism is not an attack on the content creator, and is part of a having a healthy community. I expressed how and why the graphs would be beneficial to the audience without say anything to put down Jay's ability as a content creator and a Tech enthusiast. I trust his results, I'm simply saying that graphs would provide a nice visual so the audience can better understand the real-time relationship between the temperatures and voltages between the two products he tested. Edit: You got some nice freestyle man, why don't you put more energy into that instead of trying to white knight for a UA-camr that doesn't know you exist?
@99mage99 im not reading your autobiography not sure why u wasted your time. . If u want certain content. Create it. Test things yourself. All i said. Simple. Take the advice. Or Dont. Idgaf.
I use this thing for a while and I love it. I tend to use CPUs long and try to get them through as many GPUs as possible so no dry out is helping. You have to note, that you can't use the pads multiple time. The graphene gets bent to fit the IHS and cooler, which is permanent.
The PTM7950 isn't like this pad, and if you tried to remove an applied one, it will tear. However, the nature of it being phase-change means if you chill it, you should be able to pick it up, and then heat it to reform it into a single flat sheet again.
@@Jadebones I would maybe do something like use a Peltier cooler from like a phone cooler, or even flat icepack. Just to avoid any possible moisture build up elsewhere on the board. But you could just carefully scrape or peel it off, when the device is off and left to cool down as much as possible - maybe leave it in the garage if the temperature is very cold. Just need to make sure the pad is as cold as possible to make it easier to remove. Once you get it all off, you can just put it into a mold or something, heat it with a hairdryer, and then press it flat, and it will become one sheet again. It’s a bit like super fragile molding clay.
This pads get better after some use, and could happen that when they are just installed the temperatures are higher than with the thermal paste. Lot of users suggest to start using the pc for a gaming session, or a time spy for at least 3h. In this way the pad adapts to the cooler and to the cpu and fill the gaps.... After this process if you test with cinebech you will see 4/5 degree less or same temperature with higher power consumption
The 33 x 33 for AM5 has been working great for my 7600X. Also got a 29 x 25 for my 6950 XT and cut the excess off. Both are running great/better than they were on a less than 2 week old application of MX6 paste. If your cooler or application process is less than ideal then this can take up some slack.
No way in hell it beats mx6, I wouldn’t doubt it being somewhat close but without proof not believing it, mx6 is very good paste and hangs with the expensive stuff pretty closely
@@mangatom192PBO -30 / + 200 mhz OC 7600X with a Phantom Spirit air cooler and MX6 was hitting 78° C in Cinebench R23. On the pad it hasn’t exceeded 75° C on a 10 minute loop.
I'm a bit amazed that it isn't used more by tech channels. It should make benchmarks more consistend because the graphene pad is always the same thickness where coolingpaste can be applied too thin, too thick or is can spread differently.
there's been a ton of videos that prove too much isnt an issue. it's just more of a mess when it squishes out. and they've done it enough times they know how much is too little
In direct-die applications (GPU's and delidded CPU's), even if some of the initial gains compared to fresh LM are negated, the set-and-forget aspect of these pads is an extremely attractive proposition, particularly with copper cooler plates where LM has to be renewed regularly (ETA >> although each application does get more stable than the last as the copper gets 'saturated' with gallium).
The benefit to a graphene sheet is not the mess but the longevity. The sheet will perform the same on day 1k as it did on day 1, thermal paste dries out or gets pumped out and loses performance over time. For the average user the mess isn't a problem, it's apply once and that's that. At most they may reapply paste 1 time.
Well thats great to know. Granting this graphene is not the great kind of one we hear about to get the massive thermal conductivity they must be made carefully and pure if they are to have those massive thermal conductivity performances
@@JETWTF my friend I study graphene and I had to understand why their not perfect from every manufacturer I can tell you yes the ones from thermal grizzly are good but what im saying is if the graphene was pure and much better quality manufactured it would of been a much higher thermal conductivity performances it could reach hundreds to thousands of times better than the best thermal pastes!
@@andrewreynolds912so what would be stopping a company from incorporating that high quality graphene into a sheet for CPU cooling? is it that much more expensive? harder to make?
@@Crunkmaster it's more expensive and harder to make it makes it much more complicated if you did it pure graphene because the more pure, the more less you're gonna have bad alinements with the atoms on a nano scale tho I suggest you still do research oh how it affects it and why less and more cruder graphene is worse than purer
A couple of months ago I bought a Thermal Grizzly Wireview and the quality is amazing. I'd definitely try out this cooling pad if/when I need to change my thermal paste in the future.
My daughter tried to install her own CPU upgrade... The socket ended up needing a rather expensive professional repair job (I just didn't have the tools for it, although I tried). This stuff sounds like a godsend. Definitely using it when I do another build in the future.
I used a kryosheet on my 7900xt and couldn't be happier. Hotspot Temps rarely, if ever, go over 80°c now. Before that, I had constant pump-out issues with paste. Totally worth it, highly recommend!
Imagine a thin sheet like what they have, but because the orientation of the molecules, it only transfers heat from the thin side to the other thin side. So they squish a bunch of them together then cut more sheets the opposite way. Think Damascus steel where they change the orientation for a different pattern. This is why they are so expensive for the size you get.
Honestly, best use case for this is something that you need to last a long time and run hot. You know it won't degrade over time which is a big benefit. Maybe for like mining machines or just a gaming PC that you plan on using for 5+ years. Great video.
Great video, but like a few people mentioned, it would be great if we could see graphs in comparison to Noctua's paste, Arctic Silver paste, Cryonaut's non-graphene pad, and this graphene pad. Visuals help us just as much as your tests and we can reference them when we're at Microcenter.
@@lurch789 To be fair, it's kind of hard to really mess up a thermal paste application. Tests have shown that different methods yield roughly the same results. Still, I'm going with thermal paste for my new build. I'm a creature of habit and, although it may be less convenient, I find myself wanting to apply the paste. Also, a 4g tube of MX-4 costs less than half of what a pad costs, although the value is obviously there if you plan to use the pad for many years/builds.
I have a similar product that I bought a couple of years ago from Innovation Cooling. It's marked as a graphite thermal pad. I'm putting together a new PC, so I might give this a try and see how things work out.
This looked really nice because you don't have to deal with the sloppy thermal paste. But the thing that worries me is that its conductive. There was a tear @19:09. And what if a piece of that falls off on to the motherboard without noticing. Just like some screw accidentally gets left behind the motherboard or something and it shorts. Thats something I would be worried about. Other than that, this looks great.
I would really like to see how cleanly the graphene sheets can be cut. Given that the material is conductive, do you have to worry about a "frayed" edge that might drop conductive dust into your system? I would also like to see how fragile the sheets are. Would the average PC builder need to be extra gentle with the graphene sheet to avoid destroying it or can the sheet withstand a bit of bending?
You have made a ton of great videos, but this is one of my favorites. I once bought some solvent to clean up messy thermal paste. My outdoor trashcan that I threw the solvent away in after cleaning a CPU smelled horrible for months (the waste was on a coffee filter that was inside of two plastic bags and yet my garbage can still got contaminated by the smell). Not having to clean thermal paste again really appeals to me.
@@maxisoulcaliber8941who cares, as he mentioned it works for repairing spinal cords, it’s perfectly safe in most cases so long as there’s not graphene powder involved. Hell I have titanium in my body, but I’m not exploding
I actually like thats it stays the same overtime, becuse that means no need to refurbis the typical coolingpaste. because cpu paste usually dries. Especially if your are a horder like me, and use the same pc for a long period.
I've used these, as well as the IC graphite pads, for a while for cooling. In my experience they are indeed very sensitive to pressure. I don't a have a proper "high performance" test or comparison but the performance was good at that end and quite poor at the low end. Also I found that they are very fragile. They easily tear so you need to be very carefull taking them off especially when you have pieces overhanging. Also at the cooler side, for example the intel stock coolers (especially the older ones with a cylindrical copper slug) were very damaging to them. The kryosheets were more fragile than the IC pads by the way, the IC pad I still have is still kinda square while the kryosheet has more of a Texas shape now
I’ve watched quite a few videos of yours, and you’re really good at not following or even reading the instructions or manuals for these products you’re using and testing… The thermal grizzly cryosheet, is not designed for use on CPU chips… it’s meant for CRYOGENIC coolers… while yes, it can be used as a thermal pad, but there’s so many better options for the actual thermal cooling that you’re looking to achieve.. Also, when you open a new tube of thermal paste, you must discharge a small amount to remove any type of sealant fluid the manufacturer uses. It’s extremely crucial to do this as getting that fluid mixed into the thermal paste for actual use, is going to cause adverse effects.. Also, when applying thermal paste, you should always read the manufacturers instructions for each product you use, there’s a reason why they include instructions.. most of the time, they’ll tell you to clean the surface with a thermal paste cleaner and or 99% alcohol solution. Wipe down the application tool as well, then discharge a small amount of paste each time you go to apply, this will ensure a pure application of the paste, removing any contaminates, apply thermal paste according to the directions, which is designed based on the viscosity and type of thermal paste and the minimal application amount once the product is pressed after completed installation, which is usually around 0.01mm, obviously, this minimal paste thickness is extremely crucial and making comparison videos without paying any attention to the product details/instructions or taking multiple measurements using multiple meters, will just produce false results.. Ideally, you should be using something like plastigauge to measure the gap, AND it’s extremely important to use a torque wrench and assemble the CPU heatsink/cooling system properly according to manufacturer specs and tightening the bolts in a “star” pattern, and slowly tightening them down nice and evenly, using the torque wrench to gradually increase the pressure..
I got 0 improvement on my 13700K compared to Arctic MX6. But it did not get worse, and now I don't have to do any maintenance. So it's a win. My previous build is having the cooler mounted on liquid metal (with delid too) for 8 years now, and did not move one inch.
That's pretty much all you should expect. No, or little worse, but a lot cleaner, yet a lot more expensive. Is not having to reapply or do a cleanup worth 20 dollars? Then it is "fine".
Why worry about the CPU voltage fluctuations? Voltage is gonna do what it's gonna do, no stopping it. The only thing to be concerned about is max voltage in relation to max CPU temps... that's the real world test.
I used one of these on my first totally new build in 8 years. With the Kryosheet my old NH-U12A performs several degrees better even taking into account the great efficiency of the 7800X3D. It did cost about the same as 3 small paste tubes but I reckon it's worth it.
@@lurch789 You are wrong. The best paste, newly applied will be better, but it doesn't take much of a drop in quality of paste to get lower than a graphene pad. And not much in the way of drying out for a high quality paste to be worse than a graphene pad. The best use case for paste is high quality paste often reapplied, but that is also the best use case for graphene pads. In general, there is no difference between a good paste and these pads of graphene. If you hardly ever use them, it is 20 dollars you didn't need to spend, because for 2-3 years you might not need another 5$ tube, but "on average" over that time, the pad would have been better, just nowhere near where you should care about it. The major use of it is if you test CPUs. You get a lot of cost with a new coat of grease, and the hourly cost to remove the paste enough to fit some more paste is vast, compared to the cost of the paste. But if you use a pad, then you get a pair of tweezers and just remove then replace the CPU and put the pad back, and you should get the same cooling in either case. Test 20 CPUs and 1 pad is needed, and no cleaning time. You may need to replace after scores of changes, mind, it is only graphene after all. About the only case it might not work for is LN2 cooling, but you don't use paste either.
@@markhackett2302 How long does it take for a good paste to start degrading and increasing the cpu temperature by a few degrees? I might go for the pad for my 5800X3D, I would hate to replace paste every once in a while.
@@markhackett2302these are one time use due to the direction of the carbon bonding. Looked into this years ago. It would be good for a long term laptop but I’d highly advise against reusing for obvious reasons
@@ИванИ-м3жaround 1-3 years is a good rule of thumb for how often high end paste has to be redone. i used to do kryonaut but literally a year later my idle temps would be 5-10c worse, so it wasnt worth it to me.
20 minute gang. These graphene pads are actually pretty cool. Works well enough with the 3600 (non x) and box cooler. Edit: If anyone is wondering why I would do that, it's because the system went to my son (old enough to live/work on his own) and I know for certain the computer will receive minimum maintenance. My personal belief is that these pads will maintain their integrity over a long period of time. Thereby mitigating some of the risks cause by pastes that degrade and cause thermal issues.
Just want to say, I appreciate how you do things more as a “normal user test” rather than “best case scenario. Feels way less…misleading(?) as it represents actual use case
@@SymbolicLogic24while true, for the cost and the quality of life improvement it brings over paste, far outweaigh the loss of efficiency for many builds, especialy for the pc's of ppl who close to never do maintenance on their pc, so the market is massive, due to how many dont know/care about their tech
@@skupire6547 Yea, sure man, the 2° or so that you give up are SO not worth the significant quality of life upgrade this offers, no way, totally wild...
@@skupire6547 Its true though. My friend never cleans or messes with his pc. i literally go over there sometimes and just start cleaning it without him asking because he has flat out told me that hed rather just wait for the pc to start slowing down to mess with it. so something like this would make better for him because he would maintenance it more often
I purchased my first thermal pad (IC Graphite Thermal Pad (40 X40 mm) in 2019. I also purchased Arctic Silver compound at the same time. My intention was to use the thermal pad for the initial assembly of the build, skipping cleaning the thermal paste off and reapplying it for the final build. The thermal pad performed so well that I never applied the Arctic silver. I've been using the same individual thermal pad over-and-over and I've reassembled the system three times at this point and it's now 2023. You'll never need thermal paste again.
I use them on my consoles and lower end laptops. Edit: I actually have never used these sheets I use the carbonaut sheets. I would love to see testing comparison between the two preferably by GN.
@@TheBlueBunnyKen I've never had an issue and I'll never have to take it off again. I haven't tried it on the latest generation but I imagine it would work on the Xbox series x. I know it won't work on the PS5
Jay, the science behind the whole "cooling grain" as you called it has to do with the physical molecular arrangement of graphene. Graphene is an _amazing_ thermal interface, but it hasn't really found any use in commodity cooling solutions before now due to the fact that graphene has its molecules hooked up in long, 2d horizontal chains, which dissipate heat extremely well...on the X and Y axes. However, as you can probably guess, for CPUs and the like, we need to be moving heat _upwards_, in the Z-axis, away from the IHS and into the CPU cooler's coldplate. The way that Thermal Grizzly Kryosheet gets around this is by stacking tons of sheets of graphene on top of one another, and then cutting them such that the molecular chains end up pointing upwards. So each of those Kryosheets you showed in this video is actually several, dozens or maybe hundreds, of graphene sheets which have all been sliced into ribbons a few microns thick, then pressed together into what looks like a single homogenous graphene sheet or pad. Hope this helps! You can learn more about the technical specifics behind it by watching the video Gamers Nexus did with der8auer where they stole Asus's conference room at Computex for 40 minutes for their annual nerdy bro-out. Hope this helps!
It would be interesting to see how it will be long term. If they do melt with prolong high use or if it just stays like it does in the video. Definitely a great product to mitigate the paste change for those who don't know how, or don't want to.
Graphene has a melting point above 3600° C, so that probably isn't a risk. If your CPU is that hot you don't have a CPU anymore and haven't for a long time :P
I used these back in 2019 on my Asus Zephyrus laptop, im pretty sure it was running a 9750h/2080 Super max-q on that setup. I replaced both the cpu & gpu with these, it worked ok but not really what i was hoping for(especially for the money). Basically a -2c or -3c difference if even that...but it kept stable and was fine just not a dramatic difference. Upon inspecting them after fair use when i pulled them out, they seemed fine to reuse i just never tried. I wound up using paste(Notcua mx4) a couple months or so down the road and got much better results for lowering my temps. I would recommend these to someone who dont care about having the coolest temps, but wants to be able to have the longevity of what this product can bring. Great for the family relative's who never change/upgrade their hardware at all, keeps their older setups going without needing maintenance.
Swapped out paste on my 7900 XTX for the Kryosheet (25x25). A few degrees cooler on the delta at the same 464W, and keeps the delta in the 30's when pushing 550W with the AsRock BIOS I flashed on my Merc 310. Keeps it cooler than stock, but the big win comes with no more paste pump out! lol Thinking about getting one for my 5800X3D, but it stays pretty cool as it is. After the 2nd failed mount, with the pad moving, I decided the third time around to use a 4 tiny tiny dots of thermal past at the very edge at the corners of the pad, which kept it in place while mounting. Doesn't seem to affect the performance, as it's still cooling better than the stock paste.
Well@@lurch789, seeing as the stock hotspot delta was only 21C at 464W, and I only gained a couple of degrees over stock paste with the Kryosheet. Doesn't seem like it was too mediocre. I have some NT-H1 and MX-4, but with the pump out on this card I didn't really feel like taking that card apart again in a few months to repaste, so don't care which one is really best, but the people on the Merc 310 forums have done most of that testing for me. I just want consistency, which the kryosheet will provide, while performing better than most paste.
I've been using these pads for 3 years, the same 2 for my machines removing coolers and changing coolers the whole time. Super reusable but I'm now seeing some pulling apart on one. Well worth the money and convenience for me!
I'm using the IC Diamond Graphite pad. Have reused it now 5 times, and still solid performance. They are cheaper than the Kryosheet, too. I would not want to go back to thermal paste just to gain maybe 1-3 degrees C in temperature. These pads are so convenient. Also, no tear so far on this pad. Best purchase I ever made. (oh and the cooler is a massive NH-D15, so lots of weight and pressure). Current CPU is a 5800X, but I had this for my previous chip which was a 3600X. And I will reuse this again (hopefully if it fits) on a 7800X3D.
@@jsadecki1 Probably not, but they are very, very convenient. For instance, I just did a swap of motherboard, CPU and RAM in my system. All I had to do was remove my cooler, remove the pad, replace the components, put the pad back on the new CPU (after cutting it down to size for this one), and adding the cooler. That's it. Nothing needed to be cleaned. The surface was still completely shiny clean on the cooler. I am pretty sure that the liquid metal thermal paste performs better by a few degrees (there are YT videos comparing the two), but I personally just never had any thermal issues. I do not overclock my CPUs (they kinda do that on their own those Ryzen CPUs), and I never ran into a thermal throttling situation. This pad has now survived several upgrades.
@@bellotriggerfishwell for some reason when I read your comment and never showed the extended version of the comment when I was reading it and my email thank you very much I'm pretty sure I'm going to move to one of these only problem as my liquid metal has eaten away at my cooler at least the last one and I've just bought on you cooler to replace the exact same one with the exact same liquid metal so I'm wondering as my eating away copper contact will mean that this pad won't work what do you think
These pads are sturdy and reusable. I have been using one on my daughter's PC for a couple of years with no issues. I have touched it and it's never torn or fallen apart. I get being cautious, but Jay is taking it to an extreme.
Hey Jay, I know you're smarter than me but having experience with this substance, it is very beneficial to trim it down as it will cool better. If its hanging over, it will not put all the heat it draws out of the CPU into the cooler. I know that sounds strange, but that stuff works soooooo well, that its very picky about how it performs. Plus it can tear off and drop down and touch something electrical, and then shorts start happening. Fun fact, my kids like to take a piece of it and let it take the heat out of their fingers and cut through an ice cube with it. Come-on their kids. Fun Fact 2: If you cool a GPU with this stuff, only do it with water cooling as an air cooler will actually heat up the GPU, why? because it works sooooo good, that it will take the heat from the memory on the card and some of the heat will flow into the GPU instead of the cooler, but a water block will work fine and give you about 10-12C cooler. Enjoy!!!
Considering the room he's in is much colder than mine and his system was an open test bench whereas mine is a closed system inside a case, I'm pleased to see that our temps are quite similar under heavy load and my CPU is a 7950X3D with thermal grizzly kryonaut paste applied. That means if my system was completely opened up and my room chilled down to 19 C then my temps would be better than his Intel under the same conditions, not bad.
The "grain of cooling" is actually a grain to the graphene sheets. They are generally laid flat, running the direction of the sheet for strength. Heat transfers best along those fibers, rather than between them. In our use this would help disperse heat left to right, but not be as efficient moving from cpu to cooler. These pads have the grains running from top to bottom, this makes them much more fragile but means that heat transfers alone the carbon tubes to the heatsink. edit: if it helps you can imagine them as little liquid cooling tubes, just laying a stack of tubes on their side between your cpu and cooler wouldnt help transfer heat nearly as well as actually running the tube from your cpu to cooler
The excuse of thermal paste being messy is because of over application. As you said the surface of the cpu lid and cooler block have "microscopic irregularities" You only need to apply a thin layer of paste. Obviously having metal to metal is ideal heat transfer. I know the debates of how much to put on has been covered. Any build up of unnecessary paste is a heat block, especially if its squished out the sides and gathers into the nooks. That is not an acceptable. every surface counts. I like the thin sheets, that's how thin the paste should be.
I have been using the graphine grizzly pads for every PC I have built. I built my 1st PC in 2019 after watching Jay's and Paul's build videos. They literally taught me how but I never use paste. GN reviewed graphine and I was sold.
Most graphite pads would be aligned with the graphene layers 'stacked' like a box of paper. This would be great at spreading heat side-to-side, but mediocre at transferring heat in the Z-direction. These are apparently unique in that they're aligned edge-on, which makes them even more fragile but should make the heat transfer _through_ the sheet (into the cooler) much quicker. However, this would give them a 'grain', with one direction 'across' the sheet fast-transfering and the other slower. I wonder if that means there's an optimal rotation for certain CPUs (I'm especially thinking of the higher-end X3D AMD CPUs, with one high-clocked and one 3D cache stacked (more heat-sensitive, lower-clocked) set of cores. Would you want to arrange them so that heat transfer BETWEEN the chiplets is slower than heat transfer ACROSS and 'UP'?
I’m sold. For me it’s just the application, not having to worry about not applying the paste correctly or having trapped air. This seems a bit easier. I found a graphite pad for $13.
Bruh video is only 30min old and already three bots in the comment section. UA-cam in a nutshell. Remember people, always report these annoying pests! Informative video Jay, been waiting to see a video about these from other channels. Only downside i see is that these graphene pads are Veeery fragile, so this won't be suitable for everyone... Thinking back on the 12V cables melting and how it was Partially user error. Just saying that not everyone is carefull when it comes to hardware in general, which is kind of an understatement. That said, graphene in general is pretty much the future in how durable and versatile it is. Carbon nano tubes is in the same category but is also hard to manufactor.
I just switched from my Noctua u12a with Kryonaut to this Kryosheet and a Peerless Assassin, but with the Noctua fans. I'm idling roughly 3 degrees cooler. I'm on a 5950x with an x570 Taichi Razer. I LOVE that it won't EVER dry out and I don't need to reapply years down the road, so basically any performance issues will definitely NOT be the 'thermal paste' or any kind of poor application. It was an easy install and I did everything in my power to make sure it didn't slide when mounting the cooler. Either case, I'm running cooler, and that's just awesome, but, I love that since it won't dry out you won't get a cpu that starts to run hotter and possibly degrade. I'll never have to pull this thing off to see if anything is degrading in between the cooler and cpu. Love this product.
I nerd out on Car electronics like you do on computers. I was looking at this to possibly be of use in the competitive car audio scene, until you said it's conductive. All in all.. enjoyed watching this video. Very informative good content.
The cooling is directional because the more you squeeze it the closer the layers of the graphite. Normally a thermal compound is homogenous and has no direction but this is a foam layered with graphite. IC diamond makes a similar product with a wonderful graphic of what happens to the pas under compression both on their packaging and under a microscope. These types of pads are also extremely resilient to damage and can easily be cut to size with scissors though I'd imagine finger oils aren't good for thermal transfer. Wonderful for permanent installation where zero maintenance is required. They should easily outlive whatever product you install them onto. Great video!
No this is completely different the IC Diamond pad and Thermal Grizzly Carbonaut are graphite foam, this is graphene, it's a bunch of sheets of graphene that have been extruded on one another, normally the problem with graphine is that it conducts heat well along the length of the sheet, but with this they have layered the sheets and then cut across so that the conductive axis is the short height of the pad.
I was going to make the point that grahene is electrically conductive too; as well as being thermally conductive. Silicone-based thermal pads are insulators. Honeywell PTM7950 thermal pads are recommended to those who aren't happy with electrical conductivity. But remember: the metal top of the CPU and the heatsink itself are also electrically conductive. For CPU cooling - use the thinnest pad you can find.
Saw this vid when it came out. My PC was being RMA'd at that time, saw the shop had these in stock and thought why not. I just got the PC back and the people from the shop told me that this worked so well that some of them who worked on my PC are now considering switching over :)
I think they were designed mostly with people who have to install and uninstall CPUs/Coolers a lot, such as reviewers, but also, tech/computer repair places when trying to diagnose CPU/Mobo issues when taking a CPU and putting it in a Known Good board to rule out it being the CPU, or just the Socket on the motherboard.
In case anybody wants to know the science behind this graphite pad. Graphite is an anisotropic material (does not behave the same in all directions) where there are atom thick sheets laid on top of each other and are held together through weak van der Waals bonds. Heat transfers relatively well when going from one side of a sheet to the other. However, heat transfers poorly from one sheet to the other. What Kryosheets did with this product is align the graphite sheets vertically so that the heat does not have to pass the van der Waals bonds between the sheets and can flow along the sheets as preferred.
Drying out over time is actually a big problem for systems dying over time... usually when some technician repairs a system most the time they can get it running good again with a clean and new paste.... So for systems that people are going to use maybe for a long time and aren[t going to access the CPU... i think that's a great feature of these pads, providing they last that long.
I bought one and i already used it for two am4 mounts, trimmed it down a bit for am5 then mounted it on two CPU’s again. There’s one direction in which folding it makes it instantly crumble but treat it like it’s made of gold and I can see re-using this for a very long time.
I really don't care that they could be as high as 5 times the cost of a single use tube of paste. The fact I don't have to deal with messy paste is both a time saver and one less thing to stress over. I have several LGA1155 systems I am getting ready to rebuild to use as simple NAS, media servers, and other uses in my home. My plan is to do a full breakdown, deep clean, then rebuild. I was waiting to buy new paste, but now I am just going to buy the 38mm x 38mm sheets that will fit that socket just fine for nearly twice the cost of the thermal paste I prefer to use. I call this a massive W.
My 7900xt had those 110c junction temp issue so I assumed the pad would fix the heat pump effect if that was the issue. Now the temp sits around 75c while 4k gaming in ultra. This thing may be pricy but worth
This thingy is grate for service shops... been using it for a while and there is no mess when u need to reapply it. When your done with pc service just put normal thermal paste and ur good to go. Its a bit pricey, but in a long run its much cheaper because u can use it multiple times and there is no cleaning after every use, so it saves time and money :)
needed these when i was upgrading my old lady's cpu cooler to an AIO, cpu got pulled out with the stock cooler and it bent 4 pins. luckily got them straightened out and everything works fine now
The older I get the more things I discover that are more expensive but also way more convenient or user friendly. I always used "normal" sized blankets and never thought about it but one day when I needed new ones I decided to get a size larger. Eye opening. It's so much better that I wonder how I could sleep before.
As many people have already said, it would be interesting to see graph comparisons, and given that we’re talking about graphite pads - including the tests of “single-core stress tests” (for example - compressing a large folder into archive on a single core, or 10-minute Cinebench in a similar configuration): as far as I understand, in such scenarios graphite/graphene pads are superior to paste due to the crystal structure of the former that quickly spreads the heat away from a hotspot and along the cooling surface, thus reducing temps in hotspot scenarios way better.
Would love to see a comparison test of these sheets to the phase change material sheets to see if there's any difference in performance between the two 😄
I've had a few over the past few years. Love them. Use them for test bench clean and easy to change cpu no mess. Love em. No heat issues with what I use them for
As a first-time user of these with a 14-700K build... I'm really glad I got this, considering all the CPU-swapping I've been doing, thanks to Intel's incompetence with the 13th and 14th gen CPUs. Did a bunch of troubleshooting which included multiple swaps of CPUs, so this was a great time-, effort-, and cost-saver. That said, I would've REALLY liked to see you test a CLEAN processor. It takes so little effort to remove and clean the extra paste residue off, and the entire point of the video is TEMPERATURES, so I'm *really* disappointed you didn't take the time to do that. Would it make a BIG difference to the end temperatures? Probably not, but even 1° or 2° would've still been nice to know about.
The value for me is never changing/reappling paste. Especially for the family/friends builds.
😂
It not drying out is a plus too. Most of those builds won't be getting any maintenance over the years.
I have literally never had to change thermal paste even in 13 year old build. I don't know what kind of paste you use....Direct die applications should use a silver liquid that is fully conductive. (I know it's hard to apply, just learn :)
@@shanemitchell477thermal paste drying out is a known issue. Just because in your extremely limited experience it didn't happen (probably did and you just didn't notice)it doesn't mean it's not an issue.
@@shanemitchell477This man is still running a 1st Gen Intel CPU running on 32nm... RIP
As someone who works in graphene, its nice to see practical applications coming out!
Can you speak to the durability or lifespan of graphene sheets like this?
@@msn8ive graphene is strong in-plane, but any defects can vastly reduce that so durability is definitely an issue from tearing due to said defects. The lifespan is good as long as you are not moving it.
there are varying qualities, but generallt the thinner ones work better. they dont bend or twist well so its nice to get it close to the space available, and know how much of a gap is left between the cpu and the heatsink.
youd still need something to fill the gaps, its not soft, and doesnt fill those gaps... but you dont need so much... since its harder than the silver it should press through and still make contact.
i really wish i can get some legit graphene and try some stuff...
i usually leave the old stuff on there and burn it in... if it starts crumbling mix it into the new paste.
in theory you can do the same with the graphere as it falls apart... just you have to keep in mind its nanoparticles... if the pad ever breaks up on you. best vacume that thing out... pretty much the only downside is how fragile it is.
You must be a really small man or that must be A LOT of graphene for you to be able to work in it. Does it cool you off in the summer?
Coming out? These pads have been around for 6 years ^^
At least I have been using them for that amount of time.
The thermal grizzly ones have been around for at least 5 years now.
I think these are great for test benches because you can’t get a bad application. It’s more consistent test-to-test
Similar to that, I like using them when I'm testing a CPU or motherboard to sell. I'm only going to have it built up for maybe 30 minutes to an hour or two, so it seems a bit wasteful to use thermal paste. Plus, if I were to use paste, I'd have to properly clean it after the fact. So, it's just far easier to use a graphene sheet.
Or for someone who is super worried that they're not putting enough paste or they're putting too little past. For me, the price is too high for my use case.
@@shinaikoukayes and no. According to Roman, they’re single-use. It will compress under the cooler and stay that way. At least you’re gonna lose performance with each additional mount. That’s the difference to graphite pads. They’re reusable.
You can apply them bad in so many ways. 1. Touch them will destroy the anisotropic property of the sheet. 3. The more often you reuse them the more the thermal conductivity shrinks. Because every time you apply the sheet and compress it, it degrades.
@@andromydousThose are both the same thing 😅
To be honest, as someone who often negelects changing their cpu paste, I might go with these in my next build since it's easier to change and less of a headache.
Nah. Endurance oriented pastes don't really need to be replaced for the life of a build, and they perform about the same at their worst (after aging) if not better than good carbon sheets.
Phase change polymer is an interesting option for something you want to just install for life in a laptop or GPU or some such like. Better performance than paste, close to liquid metal without the corrosion or the hazards or ageing.
How often does thermal paste dry out nowadays? I feel like that only happens with OEM paste and cheap pastes.
I haven't changed my paste like... ever. Unless there's some other maintenance going on with my loop that requires a reseat.
@@MomentoIraesame, I've never changed the paste unless I swapped coolers or processors.
@SianaGearz any products you know or would recommend for phase change polymers?
Since I discovered these pads, I am only using it. It might not be the best for cooling, but it is so practical and clean. I don't have to worry if I used the thermal grease properly or clean it. Also the fact it does not degrade over time is a big +. I really love it.
@@user-mk4or5yu9rBecause it's enough cooling and it is practical. You don't need your CPU to be freezing cold.
too bad they are single use, at least the industrial version is.
@@leszekzajac7772 The consumer ones are reusable.
@@leszekzajac7772 Just like any business out there, they'll tell you that it's only "a one time use" to get you to buy another since they want that profit. Can't make money if they're reusing the darn thing. Let's be smart
I really like how much attention to detail DerBauer has with their designs. These pads are honestly a huge deal for maintenance purposes. It's expensive but you're paying for the longevity and lack of maintenance. I picked up a few of these for my builds and I added them in my neighbour's kids' computers too so that they can be better maintained. I love these.
@@adamd1347 definitely worth it. I wonder what all these thermal paste companies are thinking right now knowing this has been out for a while XD
@@lurch789a big tube of paste is like $15
@@lurch789 Pointless comment as it has nothing to do with the lifespan of graphene - you obviously used all your training in materials science to espouse an opinion without justification for giving that opinion.
@@zorbakaput8537damn it’s just $15
@@lurch789 Ah yes, the Sesquipedalian.
Been using them on my 7950x and 7900 xtx. Solid performance and it's nice to not need to worry about things like pump-out on the GPU.
what is your GPU/hotspot delta on 7900xtx. Is it better or worse than before?
how is this compared to Honeywell PTM 7950?
Totally agree. If you have time to answer: What size are you using for the 7900 XTX? I’ve been trying to figure out which size to order for one of those.
@@arashikou6661just google the size of your GPUs die and get one big enough to cover it.
@@arashikou6661you need 25x25mm
I've been using graphene pad for the past 5 years on 3 of my machines and they are solid performers and for someone like me who loves to upgrade its a huge time saver. And yes, I've reused them.
Are they non conductive to electricity?
@@arrivedknight7632 I don't think many people would buy them if they were.
@@arrivedknight7632 17:39
@@arrivedknight7632 probably no and if they are, dont put them in the circuitry it's not like they will spill.
@@ThatMathEnjoyerthey are! watch out
I've been using Carbonaut pads since my 3600XT. Upgraded to 5700XT and... no problems. I find it runs maybe a degree or two warmer than a really good paste application but... you can go back two years later and the CPU lifts up effortlessly. No twisting, no bent pins, no mess, nothing to clean... I'm surprised you haven't been using this. ThermalGrizzly is the shizz.
Were the Carbonaut pads on sale so many years ago? And i thought it was a brand new product?
For real
I was once took out my AIO to replace the paste, it was so hard I end up pulling the pump together with the CPU 😂
I was so shocked, I thought I just broke my motherboard together with the CPU 😂
@@Fate025I think he meant the previous product. It was like a soft cloth pad. Don't remember the product name. But TG definitely had a really comparable product before.
I used it on my 6700K but it was damaged (user error maybe?) so I could not use it anymore after the platform change to AM4.
Carbonaut is the predecessor Product@@Fate025
Carbonaut vs Kryosheet, @@Fate025
This video is a prime example about why I watch this channel and not other tech channels. One of Jay's videos helped me many years ago to make a good purchasing decision. I love that this is actual hands on instead of just a show and tell video. Using the thermal paste first and then two tests with the pad afterwards is exactly what viewers need.
Jay is great, but for the love of grud, please do not base purchasing decisions off of 1 person. Do your own research and as Jay says... read the f'n manual! 😂😂😂
@@swampmonkey420 The video was not a specific product. My previous PC died and I was doing research about the difference between AMD and Intel CPUs. Jay had a wonderful way to explain the differences. I knew that Intel usually overprices their products and every CPU change meant a new socket. Jay explained the PCIe lanes situation well. That also happened to be the year when AMD CPUs were finally better than Intel CPUs. Since money was and is a rare object, I had to go sort of low budget. Ended up getting a new first gen Ryzen CPU. Six years down the line, it still proved to be a great choice since it still out performes the Intel CPU that a friend of mine bought a year or two later. The only issue that I ran into recently, was one of the memory channels on the motherboard failing.
Please dont use Grud's name in vain, completely uncalled for...
There's none better than Gamer's Nexus though.
Not linus tech tips?
Womder why.
Lol
I'm planning to use these for my watercooling loop. I always hated having to disassemble a loop to repaste the CPU and GPU, so this is great for me.
I have to give a vote for the longevity. This would be great for servers, embedded systems, and also for your friends and family builds because it should just work. Someone mentioned a test bench sure that would be handy as well. So I see this as great for anyone who values reliability over absolute performance. So now you need to try it with LN? It can't freeze so it may be great for extreme cooling
I'll definitely be interesting to see how this holds up 3-5 years out.
@@me0262 it's just carbon, it literally cannot get worse unless somehow it gets torn
Thanks for sharing this Jay and Team!
I’ve been eyeing these for a new build but really wanted to see someone testing them before I bit that bullet.
No hassle, no mess, no thermo efficiency degradation is definitely a plus for a system I don’t plan to change cpu, mb, coolor on once built.
stay in between the sheets🫵🤣
On the cost budgeting/value side. I normally buy at least 2 uses worth of thermal paste, because I dont build PCs very often, I need the option to retry if the first application is crappy. The graphine pad can already be reused so I'd be confident buying it once. So that boosts its value too.
Free idea. I would like to see if there's a performance difference between the KPX and the graphene sheets at liquid nitrogen temperatures. Also thermal paste will eventually freeze up but the graphene sheet could keep going. Maybe Jay will get back on the leaderboard?
I'm really glad you tested re-usability. That makes a big difference. The only thing better would be to do an actual CPU swap and test.
Ive been using one on my gaming build for the last few years. Being able to replace the cpu and not have to deal with any sort of mess was a game changer for me. Currently running a Ryzen 9 5950x and using a Be quiet dark rock pro 4 cooler and it stays very cool and have had no issue with thermal throttling or high temps. I definitely think its worth the price just for the ease of use and being able to re use it if you swap out and upgrade parts.
So I have a NH-D14 and get 85-90 and not sure if that is hot or if I should get a dark rock pro 4. Hopefully you get back to me id love to know if getting 80 or lower runs better. Have a 4090 also bit of a weird build.
@@dylanbeazley6739 That's on the warm side. Do you have your fans in same direction? How you controlling fan speed,letting the board do it,or manually?
That's a good cooler. Shouldn't be hitting that unless you have a Monster Intel Heater on that! Maybe you got the mount a little off when you did it,or not enough paste coverage. Doesn't take much to throw it off. I have the NH-D15 SE-AM4 and it's a BEAST !! I have 1 fan pulling,also makes it quieter,and other over Ram Pushing. (This may not work for most cause of the Height sitting above the Ram,I sit in Open Air so it Doesn't matter on My config)Seams to work best on my Ryzen 1800X.
I also used the Paste to try from Noctua,which does work VERY well,but my go to is Arctic Silver 5 ! You CAN'T go wrong with that !! Used it for years !
It doesn't hurt to check your pattern before you crank down and fire-up!
Just tidy-up the goo with a card,i personally use a toothpick and evenly spread it ALL over the CPU ! That way I KNOW it HAS FULL coverage across the whole die and not too much. I know someone is going to Grind on me for that ! POO ! It works for me ! I know LINUS would CRINGE at seeing that !
Hope that helps with your Temps ! 😎
Appreciate it mate I read the whole comment even though I worked it out haha. Had the cooler for 10plus years and the middle fan was much slower than the outer one I noticed a few days after my comment. Got a phantom spirit and now it's perfect :D Thanks again mate. @@phyde1885
Thank you for posting your comment. I needed to hear people's feedback and experience with this material.
As an end-user, this seems really useful. Yes, it's more expensive than a 1 gram thermal paste tube but the appeal of "apply once and forget" is definitely there, especially if it's on par with one of, if not the top performing thermal paste on the market.
The conductive part is a little worrisome but as long as there is no contact with any motherboard components or traces, it should be fine.
I do wonder, can we see a GPU video with this pad in the future? Whether it's with the stock air cooler or a watercooling block is up to you of course!
One thing that minimizes the risk of conductivity is covering up the entire CPU except the top of the heat spreader with a contact frame replacing the default locking bracket. Thermal Grizzly also makes these, but their design is too dependent on correct screw torque, Thermalright bracket is cheaper and better in practice. It's meant to prevent the problem of 12/13th gen Intel bending under tightly screwed coolers, but the side benefit of protecting socket from thermal paste spillover was notable enough that they made an AMD version too.
@@Reirainsong Fun random fact. The Thermal Grizzly method of turning by a set amount is actually more accurate than a torque wrench when it comes to ensuring the right amount of force is applied to the fastener. German engineering for perfection vs "good enough".
Bro, I was literally looking at these yesterday before buying the goop. Perfect timing.
Can confirm. I've got several IC Graphite brand graphene pads on numerous different systems that I've been running for 5+ years without any issues. I've swapped coolers on a few of them, had a mobo failure on one and swapped it out used the same pad, cooler, and CPU, no problems at all. Heck the system I'm using right now to write this has an old 3950x with a graphene pad and a Noctua nh-u12s (to fit in the rack beside my desk) and have had no problems with longevity or temps. Did my own tests years ago and found them to be on par (within margin of error) of most thermal pastes I was using at the time.
The best part really is when something happens and you have to remove it you're not stuck trying to pry the cooler off the CPU without damaging anything, no mess- no fuss. I am honestly surprised to see you so late to join the party on this one. A number of other channels also came to similar conclusions years ago when they came out. There are plenty of stories of people reusing the same pad 30+ times on test benches.
Just before I built my current system I had to dismantle and refresh the thermal paste on my older system due to age. I saw these and decided to use it on my new system. My concern was if it would work comparably to the thermal paste that I was using. So I watched it very closely for the first month. It has worked perfectly for me and I am quite happy with it.
For my purposes I do not mind the extra cost for this convenience and cleanliness. I do agree that depending on your reason for the build/rebuild it may not be as cost effective as thermal paste. But for me it is worth it.
Graphene pads work as well, within "no discernable difference" from a decent high quality paste, it is reusable, but more expensive. If you don't reuse it, you wasted money. If you spent 20 minutes cleaning paste residue, then it kinda depends on what that time stopped you from doing, so for "professionals" testing CPUs, just that alone would be much of the extra money, even if not reused. But as an end user, it's benefit is mostly reusing it. That means the old CPU/socket needs to go to someone who either gets a paste solution (for example, a hand-me-down) or you sold it without on, for example, eBay, because otherwise this pad goes with the CPU, so it is not going to be reused.
I just finished my new 2024 1440p build this last week & used the 33x33mm Thermal Grizzly KryoSheet instead of thermal paste. My stock AM5 Ryzen 9 7900 CPU (w/DeepCool AK620 Digital cooler) idles continuously at 35-38 Celsius in my air-cooled case & has yet to exceed temps in the 60's range while gaming or doing CPU intensive tasks.
It would be interesting to see the results on a graphics card replacing the thermal past with the graphene sheets. Great video btw!
I imagine you could you got the right thickness and trimmed it to the right size.
I can only find PTM 7950 which all has 0.2mm thickness.. in vga they got different pad thickness.. should we just sandwich the ptm pad? Or do they have other thickness?
@@agentwafflez5094 im new to liquid metal.. how its good if only 2c difference? Is liquid metal a golden standard here?
@@andikaputra4761 It is, and if it's true that this pad is only 2c hotter than LM , that's really great.
It would be very difficult, the nature of these pads limits their thickness. You’d have to use copper shims etc. They also don’t compress, might be fine for memory modules but the heights of the caps and chokes and mosfets on the power delivery is not as tightly controlled so going with shims and this stuff makes it quite the challenge.
You know I never gave these an in-depth look before, but this is definitely an eye opener, I do like the appeal that you can reuse it.
I really love the video, but I think this content would greatly benefit from you providing graphs for the data as well so that we can better visualize the relationship between the thermals and the voltage
Buy your own stuff and test it
@@MurdahBassRecords Don't get defensive, I've been subscribed to Jay for over almost a decade now. I was watching him when he used to do COD Commentary back in the ancient times.
Constructive criticism is not an attack on the content creator, and is part of a having a healthy community.
I expressed how and why the graphs would be beneficial to the audience without say anything to put down Jay's ability as a content creator and a Tech enthusiast.
I trust his results, I'm simply saying that graphs would provide a nice visual so the audience can better understand the real-time relationship between the temperatures and voltages between the two products he tested.
Edit: You got some nice freestyle man, why don't you put more energy into that instead of trying to white knight for a UA-camr that doesn't know you exist?
Whats the point of this video then? It was a good suggestion@@MurdahBassRecords
@99mage99 im not reading your autobiography not sure why u wasted your time. . If u want certain content. Create it. Test things yourself. All i said. Simple. Take the advice. Or Dont. Idgaf.
@@MurdahBassRecords "you" not "u"
English>eng
I use this thing for a while and I love it. I tend to use CPUs long and try to get them through as many GPUs as possible so no dry out is helping. You have to note, that you can't use the pads multiple time. The graphene gets bent to fit the IHS and cooler, which is permanent.
The PTM7950 isn't like this pad, and if you tried to remove an applied one, it will tear. However, the nature of it being phase-change means if you chill it, you should be able to pick it up, and then heat it to reform it into a single flat sheet again.
Sounds ridiculous, but if you say so....
- puts device into the freezer -
Yeah I already removed and reapplied the PTM-7950 on my GPU several times now, zero temp changes.
@@Jadebones I would maybe do something like use a Peltier cooler from like a phone cooler, or even flat icepack. Just to avoid any possible moisture build up elsewhere on the board.
But you could just carefully scrape or peel it off, when the device is off and left to cool down as much as possible - maybe leave it in the garage if the temperature is very cold. Just need to make sure the pad is as cold as possible to make it easier to remove.
Once you get it all off, you can just put it into a mold or something, heat it with a hairdryer, and then press it flat, and it will become one sheet again. It’s a bit like super fragile molding clay.
@@Anti3D-0isn't it gpu got a different thickness on their cooling pad? How did u make ptm 7950 cover the gap? Sandwich it?
PTM is used to replace the thermal paste, not thermal pads@@andikaputra4761
This pads get better after some use, and could happen that when they are just installed the temperatures are higher than with the thermal paste.
Lot of users suggest to start using the pc for a gaming session, or a time spy for at least 3h.
In this way the pad adapts to the cooler and to the cpu and fill the gaps....
After this process if you test with cinebech you will see 4/5 degree less or same temperature with higher power consumption
The 33 x 33 for AM5 has been working great for my 7600X. Also got a 29 x 25 for my 6950 XT and cut the excess off. Both are running great/better than they were on a less than 2 week old application of MX6 paste. If your cooler or application process is less than ideal then this can take up some slack.
What's the temp difference compared to mx6?
@mangatom192 I second this question, as I've never seen a video where a pad beat MX6.
And I'm running a 6950XT, and searched a lot.
I find it amusing how ppl say x is better than y but no information about Z as to what temp values
No way in hell it beats mx6, I wouldn’t doubt it being somewhat close but without proof not believing it, mx6 is very good paste and hangs with the expensive stuff pretty closely
@@mangatom192PBO -30 / + 200 mhz OC 7600X with a Phantom Spirit air cooler and MX6 was hitting 78° C in Cinebench R23. On the pad it hasn’t exceeded 75° C on a 10 minute loop.
I'm a bit amazed that it isn't used more by tech channels.
It should make benchmarks more consistend because the graphene pad is always the same thickness where coolingpaste can be applied too thin, too thick or is can spread differently.
there's been a ton of videos that prove too much isnt an issue. it's just more of a mess when it squishes out. and they've done it enough times they know how much is too little
i kinda wonder if the goop makes for better content they love to do close ups of spreading that junk lol
In direct-die applications (GPU's and delidded CPU's), even if some of the initial gains compared to fresh LM are negated, the set-and-forget aspect of these pads is an extremely attractive proposition, particularly with copper cooler plates where LM has to be renewed regularly (ETA >> although each application does get more stable than the last as the copper gets 'saturated' with gallium).
Gpu direct die what is that?
I must say that was a solid 9/10 shart raspberry in the beginning 0:11
The benefit to a graphene sheet is not the mess but the longevity. The sheet will perform the same on day 1k as it did on day 1, thermal paste dries out or gets pumped out and loses performance over time. For the average user the mess isn't a problem, it's apply once and that's that. At most they may reapply paste 1 time.
Well thats great to know. Granting this graphene is not the great kind of one we hear about to get the massive thermal conductivity they must be made carefully and pure if they are to have those massive thermal conductivity performances
@@andrewreynolds912 Your reply is confusing to me, the graphene sheets from Thermal Grizzly are the best on the market for thermal conductivity.
@@JETWTF my friend I study graphene and I had to understand why their not perfect from every manufacturer I can tell you yes the ones from thermal grizzly are good but what im saying is if the graphene was pure and much better quality manufactured it would of been a much higher thermal conductivity performances it could reach hundreds to thousands of times better than the best thermal pastes!
@@andrewreynolds912so what would be stopping a company from incorporating that high quality graphene into a sheet for CPU cooling? is it that much more expensive? harder to make?
@@Crunkmaster it's more expensive and harder to make it makes it much more complicated if you did it pure graphene because the more pure, the more less you're gonna have bad alinements with the atoms on a nano scale tho I suggest you still do research oh how it affects it and why less and more cruder graphene is worse than purer
A couple of months ago I bought a Thermal Grizzly Wireview and the quality is amazing. I'd definitely try out this cooling pad if/when I need to change my thermal paste in the future.
My daughter tried to install her own CPU upgrade... The socket ended up needing a rather expensive professional repair job (I just didn't have the tools for it, although I tried). This stuff sounds like a godsend. Definitely using it when I do another build in the future.
it is mechanical engineering materials for this type of applications
I used a kryosheet on my 7900xt and couldn't be happier. Hotspot Temps rarely, if ever, go over 80°c now. Before that, I had constant pump-out issues with paste. Totally worth it, highly recommend!
Imagine a thin sheet like what they have, but because the orientation of the molecules, it only transfers heat from the thin side to the other thin side. So they squish a bunch of them together then cut more sheets the opposite way. Think Damascus steel where they change the orientation for a different pattern. This is why they are so expensive for the size you get.
This steel technology originated from India not Damascus it's racist to use this term.
@@notinterested8452 Don't care.
@@tumultoustortellini exactly why I'm ordering you.
@@notinterested8452 nerd emoji
@@notinterested8452so what do you call it so one knows what you are talking about?
Honestly, best use case for this is something that you need to last a long time and run hot. You know it won't degrade over time which is a big benefit. Maybe for like mining machines or just a gaming PC that you plan on using for 5+ years. Great video.
Great video, but like a few people mentioned, it would be great if we could see graphs in comparison to Noctua's paste, Arctic Silver paste, Cryonaut's non-graphene pad, and this graphene pad. Visuals help us just as much as your tests and we can reference them when we're at Microcenter.
@@lurch789 To be fair, it's kind of hard to really mess up a thermal paste application. Tests have shown that different methods yield roughly the same results.
Still, I'm going with thermal paste for my new build. I'm a creature of habit and, although it may be less convenient, I find myself wanting to apply the paste. Also, a 4g tube of MX-4 costs less than half of what a pad costs, although the value is obviously there if you plan to use the pad for many years/builds.
I have a similar product that I bought a couple of years ago from Innovation Cooling. It's marked as a graphite thermal pad. I'm putting together a new PC, so I might give this a try and see how things work out.
What's wild about the Kryosheets is they've been out for a while, GN has mentioned them many times, but I hardly see anyone talk about or test them
Testers usually frequently exchange stuff in their setup or upgrade frequently on their home pc. That is why long term results are rare
This looked really nice because you don't have to deal with the sloppy thermal paste. But the thing that worries me is that its conductive. There was a tear @19:09. And what if a piece of that falls off on to the motherboard without noticing. Just like some screw accidentally gets left behind the motherboard or something and it shorts. Thats something I would be worried about. Other than that, this looks great.
I would really like to see how cleanly the graphene sheets can be cut. Given that the material is conductive, do you have to worry about a "frayed" edge that might drop conductive dust into your system? I would also like to see how fragile the sheets are. Would the average PC builder need to be extra gentle with the graphene sheet to avoid destroying it or can the sheet withstand a bit of bending?
I haven't checked to confirm, but another commenter said there's a non-conductive variant, so that would be the way to go for 99% of us.
You have made a ton of great videos, but this is one of my favorites. I once bought some solvent to clean up messy thermal paste. My outdoor trashcan that I threw the solvent away in after cleaning a CPU smelled horrible for months (the waste was on a coffee filter that was inside of two plastic bags and yet my garbage can still got contaminated by the smell). Not having to clean thermal paste again really appeals to me.
Graphene is amazing. It can even be used to repair a severed spinal cord.
Also used in tennis racquets! The possibilities are limitless! XD
Graphene is also in that "mystery shot" the sheep took the last 3 years.
@@maxisoulcaliber8941 Take your meds bud
@@maxisoulcaliber8941who cares, as he mentioned it works for repairing spinal cords, it’s perfectly safe in most cases so long as there’s not graphene powder involved. Hell I have titanium in my body, but I’m not exploding
Graphine aluminum alloy would revolutionize material application. Full aluminum cars etc.
I actually like thats it stays the same overtime, becuse that means no need to refurbis the typical coolingpaste.
because cpu paste usually dries. Especially if your are a horder like me, and use the same pc for a long period.
I've used these, as well as the IC graphite pads, for a while for cooling. In my experience they are indeed very sensitive to pressure. I don't a have a proper "high performance" test or comparison but the performance was good at that end and quite poor at the low end. Also I found that they are very fragile. They easily tear so you need to be very carefull taking them off especially when you have pieces overhanging. Also at the cooler side, for example the intel stock coolers (especially the older ones with a cylindrical copper slug) were very damaging to them. The kryosheets were more fragile than the IC pads by the way, the IC pad I still have is still kinda square while the kryosheet has more of a Texas shape now
I’ve watched quite a few videos of yours, and you’re really good at not following or even reading the instructions or manuals for these products you’re using and testing…
The thermal grizzly cryosheet, is not designed for use on CPU chips… it’s meant for CRYOGENIC coolers… while yes, it can be used as a thermal pad, but there’s so many better options for the actual thermal cooling that you’re looking to achieve..
Also, when you open a new tube of thermal paste, you must discharge a small amount to remove any type of sealant fluid the manufacturer uses. It’s extremely crucial to do this as getting that fluid mixed into the thermal paste for actual use, is going to cause adverse effects..
Also, when applying thermal paste, you should always read the manufacturers instructions for each product you use, there’s a reason why they include instructions.. most of the time, they’ll tell you to clean the surface with a thermal paste cleaner and or 99% alcohol solution. Wipe down the application tool as well, then discharge a small amount of paste each time you go to apply, this will ensure a pure application of the paste, removing any contaminates, apply thermal paste according to the directions, which is designed based on the viscosity and type of thermal paste and the minimal application amount once the product is pressed after completed installation, which is usually around 0.01mm, obviously, this minimal paste thickness is extremely crucial and making comparison videos without paying any attention to the product details/instructions or taking multiple measurements using multiple meters, will just produce false results..
Ideally, you should be using something like plastigauge to measure the gap, AND it’s extremely important to use a torque wrench and assemble the CPU heatsink/cooling system properly according to manufacturer specs and tightening the bolts in a “star” pattern, and slowly tightening them down nice and evenly, using the torque wrench to gradually increase the pressure..
I got 0 improvement on my 13700K compared to Arctic MX6.
But it did not get worse, and now I don't have to do any maintenance.
So it's a win.
My previous build is having the cooler mounted on liquid metal (with delid too) for 8 years now, and did not move one inch.
That's pretty much all you should expect. No, or little worse, but a lot cleaner, yet a lot more expensive. Is not having to reapply or do a cleanup worth 20 dollars? Then it is "fine".
Why worry about the CPU voltage fluctuations? Voltage is gonna do what it's gonna do, no stopping it. The only thing to be concerned about is max voltage in relation to max CPU temps... that's the real world test.
I used one of these on my first totally new build in 8 years. With the Kryosheet my old NH-U12A performs several degrees better even taking into account the great efficiency of the 7800X3D. It did cost about the same as 3 small paste tubes but I reckon it's worth it.
@@lurch789 You are wrong. The best paste, newly applied will be better, but it doesn't take much of a drop in quality of paste to get lower than a graphene pad. And not much in the way of drying out for a high quality paste to be worse than a graphene pad. The best use case for paste is high quality paste often reapplied, but that is also the best use case for graphene pads.
In general, there is no difference between a good paste and these pads of graphene. If you hardly ever use them, it is 20 dollars you didn't need to spend, because for 2-3 years you might not need another 5$ tube, but "on average" over that time, the pad would have been better, just nowhere near where you should care about it.
The major use of it is if you test CPUs. You get a lot of cost with a new coat of grease, and the hourly cost to remove the paste enough to fit some more paste is vast, compared to the cost of the paste. But if you use a pad, then you get a pair of tweezers and just remove then replace the CPU and put the pad back, and you should get the same cooling in either case. Test 20 CPUs and 1 pad is needed, and no cleaning time. You may need to replace after scores of changes, mind, it is only graphene after all.
About the only case it might not work for is LN2 cooling, but you don't use paste either.
@@markhackett2302 How long does it take for a good paste to start degrading and increasing the cpu temperature by a few degrees? I might go for the pad for my 5800X3D, I would hate to replace paste every once in a while.
@@markhackett2302these are one time use due to the direction of the carbon bonding.
Looked into this years ago. It would be good for a long term laptop but I’d highly advise against reusing for obvious reasons
@@ИванИ-м3жaround 1-3 years is a good rule of thumb for how often high end paste has to be redone. i used to do kryonaut but literally a year later my idle temps would be 5-10c worse, so it wasnt worth it to me.
If you are thinking about eventually selling parts. The pad is a good way to go.
20 minute gang.
These graphene pads are actually pretty cool. Works well enough with the 3600 (non x) and box cooler.
Edit:
If anyone is wondering why I would do that, it's because the system went to my son (old enough to live/work on his own) and I know for certain the computer will receive minimum maintenance. My personal belief is that these pads will maintain their integrity over a long period of time. Thereby mitigating some of the risks cause by pastes that degrade and cause thermal issues.
Just want to say, I appreciate how you do things more as a “normal user test” rather than “best case scenario. Feels way less…misleading(?) as it represents actual use case
I haven't seen un update on thermal pads for a few years, curious to see how they perform these days
They don't out perform good paste and application.
@@SymbolicLogic24while true, for the cost and the quality of life improvement it brings over paste, far outweaigh the loss of efficiency for many builds, especialy for the pc's of ppl who close to never do maintenance on their pc, so the market is massive, due to how many dont know/care about their tech
@@gampie13 this is nonsense, its wild to me that you havnt been paid to state what you just said...
@@skupire6547 Yea, sure man, the 2° or so that you give up are SO not worth the significant quality of life upgrade this offers, no way, totally wild...
@@skupire6547 Its true though. My friend never cleans or messes with his pc. i literally go over there sometimes and just start cleaning it without him asking because he has flat out told me that hed rather just wait for the pc to start slowing down to mess with it. so something like this would make better for him because he would maintenance it more often
I purchased my first thermal pad (IC Graphite Thermal Pad (40 X40 mm) in 2019. I also purchased Arctic Silver compound at the same time.
My intention was to use the thermal pad for the initial assembly of the build, skipping cleaning the thermal paste off and reapplying it for the final build.
The thermal pad performed so well that I never applied the Arctic silver.
I've been using the same individual thermal pad over-and-over and I've reassembled the system three times at this point and it's now 2023.
You'll never need thermal paste again.
I use them on my consoles and lower end laptops.
Edit: I actually have never used these sheets I use the carbonaut sheets. I would love to see testing comparison between the two preferably by GN.
How's contact pressure though? The consoles don't overheat?
@@TheBlueBunnyKen I've never had an issue and I'll never have to take it off again. I haven't tried it on the latest generation but I imagine it would work on the Xbox series x. I know it won't work on the PS5
Sounds tempting for my Asus TUF A16. Cpu of course, not gpu.
@@dobermanownerforlife3902 I put them on both but in a laptop I probably wouldn't do it on anything higher than a 60ti series.
@@MageLeaderInc 7600S
Jay, the science behind the whole "cooling grain" as you called it has to do with the physical molecular arrangement of graphene. Graphene is an _amazing_ thermal interface, but it hasn't really found any use in commodity cooling solutions before now due to the fact that graphene has its molecules hooked up in long, 2d horizontal chains, which dissipate heat extremely well...on the X and Y axes. However, as you can probably guess, for CPUs and the like, we need to be moving heat _upwards_, in the Z-axis, away from the IHS and into the CPU cooler's coldplate. The way that Thermal Grizzly Kryosheet gets around this is by stacking tons of sheets of graphene on top of one another, and then cutting them such that the molecular chains end up pointing upwards. So each of those Kryosheets you showed in this video is actually several, dozens or maybe hundreds, of graphene sheets which have all been sliced into ribbons a few microns thick, then pressed together into what looks like a single homogenous graphene sheet or pad. Hope this helps! You can learn more about the technical specifics behind it by watching the video Gamers Nexus did with der8auer where they stole Asus's conference room at Computex for 40 minutes for their annual nerdy bro-out. Hope this helps!
It would be interesting to see how it will be long term. If they do melt with prolong high use or if it just stays like it does in the video. Definitely a great product to mitigate the paste change for those who don't know how, or don't want to.
Graphene has a melting point above 3600° C, so that probably isn't a risk. If your CPU is that hot you don't have a CPU anymore and haven't for a long time :P
I used these back in 2019 on my Asus Zephyrus laptop, im pretty sure it was running a 9750h/2080 Super max-q on that setup. I replaced both the cpu & gpu with these, it worked ok but not really what i was hoping for(especially for the money). Basically a -2c or -3c difference if even that...but it kept stable and was fine just not a dramatic difference. Upon inspecting them after fair use when i pulled them out, they seemed fine to reuse i just never tried. I wound up using paste(Notcua mx4) a couple months or so down the road and got much better results for lowering my temps. I would recommend these to someone who dont care about having the coolest temps, but wants to be able to have the longevity of what this product can bring. Great for the family relative's who never change/upgrade their hardware at all, keeps their older setups going without needing maintenance.
Swapped out paste on my 7900 XTX for the Kryosheet (25x25). A few degrees cooler on the delta at the same 464W, and keeps the delta in the 30's when pushing 550W with the AsRock BIOS I flashed on my Merc 310. Keeps it cooler than stock, but the big win comes with no more paste pump out! lol Thinking about getting one for my 5800X3D, but it stays pretty cool as it is. After the 2nd failed mount, with the pad moving, I decided the third time around to use a 4 tiny tiny dots of thermal past at the very edge at the corners of the pad, which kept it in place while mounting. Doesn't seem to affect the performance, as it's still cooling better than the stock paste.
just curious how is the ASRock ARGB software? Is it still trash as I've heard or is it...usable now?
bruh what do you mean 464w 550w? like whats thosr symbol even mean?
Well@@lurch789, seeing as the stock hotspot delta was only 21C at 464W, and I only gained a couple of degrees over stock paste with the Kryosheet. Doesn't seem like it was too mediocre. I have some NT-H1 and MX-4, but with the pump out on this card I didn't really feel like taking that card apart again in a few months to repaste, so don't care which one is really best, but the people on the Merc 310 forums have done most of that testing for me.
I just want consistency, which the kryosheet will provide, while performing better than most paste.
@@whitygoose that power use on his GPU and he use custom firmware so you can pull even more power
I've been using these pads for 3 years, the same 2 for my machines removing coolers and changing coolers the whole time. Super reusable but I'm now seeing some pulling apart on one. Well worth the money and convenience for me!
I'm using the IC Diamond Graphite pad. Have reused it now 5 times, and still solid performance. They are cheaper than the Kryosheet, too. I would not want to go back to thermal paste just to gain maybe 1-3 degrees C in temperature. These pads are so convenient. Also, no tear so far on this pad. Best purchase I ever made. (oh and the cooler is a massive NH-D15, so lots of weight and pressure). Current CPU is a 5800X, but I had this for my previous chip which was a 3600X. And I will reuse this again (hopefully if it fits) on a 7800X3D.
Would you say that it's better than metal liquid thermal paste
@@jsadecki1 Probably not, but they are very, very convenient. For instance, I just did a swap of motherboard, CPU and RAM in my system. All I had to do was remove my cooler, remove the pad, replace the components, put the pad back on the new CPU (after cutting it down to size for this one), and adding the cooler. That's it. Nothing needed to be cleaned. The surface was still completely shiny clean on the cooler. I am pretty sure that the liquid metal thermal paste performs better by a few degrees (there are YT videos comparing the two), but I personally just never had any thermal issues. I do not overclock my CPUs (they kinda do that on their own those Ryzen CPUs), and I never ran into a thermal throttling situation. This pad has now survived several upgrades.
@bellotriggerfish I'm 2 seconds away from getting one do you think I should I'm currently idling at 29 degrees on computer startup on liquid metal
@@bellotriggerfish also thank you for the quick response
@@bellotriggerfishwell for some reason when I read your comment and never showed the extended version of the comment when I was reading it and my email thank you very much I'm pretty sure I'm going to move to one of these only problem as my liquid metal has eaten away at my cooler at least the last one and I've just bought on you cooler to replace the exact same one with the exact same liquid metal so I'm wondering as my eating away copper contact will mean that this pad won't work what do you think
These pads are sturdy and reusable. I have been using one on my daughter's PC for a couple of years with no issues. I have touched it and it's never torn or fallen apart. I get being cautious, but Jay is taking it to an extreme.
Hey Jay, I know you're smarter than me but having experience with this substance, it is very beneficial to trim it down as it will cool better. If its hanging over, it will not put all the heat it draws out of the CPU into the cooler. I know that sounds strange, but that stuff works soooooo well, that its very picky about how it performs. Plus it can tear off and drop down and touch something electrical, and then shorts start happening.
Fun fact, my kids like to take a piece of it and let it take the heat out of their fingers and cut through an ice cube with it. Come-on their kids.
Fun Fact 2: If you cool a GPU with this stuff, only do it with water cooling as an air cooler will actually heat up the GPU, why? because it works sooooo good, that it will take the heat from the memory on the card and some of the heat will flow into the GPU instead of the cooler, but a water block will work fine and give you about 10-12C cooler. Enjoy!!!
I seriously love the surface mating diagram. It clearly shows the issue.
Considering the room he's in is much colder than mine and his system was an open test bench whereas mine is a closed system inside a case, I'm pleased to see that our temps are quite similar under heavy load and my CPU is a 7950X3D with thermal grizzly kryonaut paste applied. That means if my system was completely opened up and my room chilled down to 19 C then my temps would be better than his Intel under the same conditions, not bad.
The "grain of cooling" is actually a grain to the graphene sheets. They are generally laid flat, running the direction of the sheet for strength. Heat transfers best along those fibers, rather than between them. In our use this would help disperse heat left to right, but not be as efficient moving from cpu to cooler. These pads have the grains running from top to bottom, this makes them much more fragile but means that heat transfers alone the carbon tubes to the heatsink.
edit: if it helps you can imagine them as little liquid cooling tubes, just laying a stack of tubes on their side between your cpu and cooler wouldnt help transfer heat nearly as well as actually running the tube from your cpu to cooler
The excuse of thermal paste being messy is because of over application. As you said the surface of the cpu lid and cooler block have "microscopic irregularities" You only need to apply a thin layer of paste. Obviously having metal to metal is ideal heat transfer. I know the debates of how much to put on has been covered. Any build up of unnecessary paste is a heat block, especially if its squished out the sides and gathers into the nooks. That is not an acceptable. every surface counts. I like the thin sheets, that's how thin the paste should be.
Or you could lap your CPU and cooler
I have been using the graphine grizzly pads for every PC I have built. I built my 1st PC in 2019 after watching Jay's and Paul's build videos. They literally taught me how but I never use paste. GN reviewed graphine and I was sold.
Most graphite pads would be aligned with the graphene layers 'stacked' like a box of paper. This would be great at spreading heat side-to-side, but mediocre at transferring heat in the Z-direction. These are apparently unique in that they're aligned edge-on, which makes them even more fragile but should make the heat transfer _through_ the sheet (into the cooler) much quicker. However, this would give them a 'grain', with one direction 'across' the sheet fast-transfering and the other slower. I wonder if that means there's an optimal rotation for certain CPUs (I'm especially thinking of the higher-end X3D AMD CPUs, with one high-clocked and one 3D cache stacked (more heat-sensitive, lower-clocked) set of cores. Would you want to arrange them so that heat transfer BETWEEN the chiplets is slower than heat transfer ACROSS and 'UP'?
cool thought
I wonder if it is "zillion" of small strips rotated 90 degree and put back as one sheet?
I think that's what it's supposed to be, yes. @@alexbold4611
This question sounds really smart (I’m still a n00b when it comes to building lol) but I’m interested if you get a reply :)
I’m sold. For me it’s just the application, not having to worry about not applying the paste correctly or having trapped air. This seems a bit easier. I found a graphite pad for $13.
Bruh video is only 30min old and already three bots in the comment section.
UA-cam in a nutshell. Remember people, always report these annoying pests!
Informative video Jay, been waiting to see a video about these from other channels.
Only downside i see is that these graphene pads are Veeery fragile, so this won't be suitable for everyone...
Thinking back on the 12V cables melting and how it was Partially user error.
Just saying that not everyone is carefull when it comes to hardware in general, which is kind of an understatement.
That said, graphene in general is pretty much the future in how durable and versatile it is.
Carbon nano tubes is in the same category but is also hard to manufactor.
If more people did they'd be dealt with quicker, but we're conditioned to be passive
@@_BangDroid_ Conditioned by tubey doing nothing (because they benefit financially from bots).
I just switched from my Noctua u12a with Kryonaut to this Kryosheet and a Peerless Assassin, but with the Noctua fans. I'm idling roughly 3 degrees cooler. I'm on a 5950x with an x570 Taichi Razer. I LOVE that it won't EVER dry out and I don't need to reapply years down the road, so basically any performance issues will definitely NOT be the 'thermal paste' or any kind of poor application. It was an easy install and I did everything in my power to make sure it didn't slide when mounting the cooler. Either case, I'm running cooler, and that's just awesome, but, I love that since it won't dry out you won't get a cpu that starts to run hotter and possibly degrade. I'll never have to pull this thing off to see if anything is degrading in between the cooler and cpu. Love this product.
Test it with no paste or pad so we have a base comparison.
Put your hand on the stove to see if you get burnt
I nerd out on Car electronics like you do on computers.
I was looking at this to possibly be of use in the competitive car audio scene, until you said it's conductive.
All in all.. enjoyed watching this video.
Very informative good content.
The cooling is directional because the more you squeeze it the closer the layers of the graphite. Normally a thermal compound is homogenous and has no direction but this is a foam layered with graphite. IC diamond makes a similar product with a wonderful graphic of what happens to the pas under compression both on their packaging and under a microscope. These types of pads are also extremely resilient to damage and can easily be cut to size with scissors though I'd imagine finger oils aren't good for thermal transfer. Wonderful for permanent installation where zero maintenance is required. They should easily outlive whatever product you install them onto. Great video!
No this is completely different the IC Diamond pad and Thermal Grizzly Carbonaut are graphite foam, this is graphene, it's a bunch of sheets of graphene that have been extruded on one another, normally the problem with graphine is that it conducts heat well along the length of the sheet, but with this they have layered the sheets and then cut across so that the conductive axis is the short height of the pad.
I was going to make the point that grahene is electrically conductive too; as well as being thermally conductive. Silicone-based thermal pads are insulators. Honeywell PTM7950 thermal pads are recommended to those who aren't happy with electrical conductivity. But remember: the metal top of the CPU and the heatsink itself are also electrically conductive. For CPU cooling - use the thinnest pad you can find.
Thermal paste taste pretty good too.
This are great, bit expensive but it's peace of mind knowing I can set it and forget it, it'll never dry up.
Saw this vid when it came out. My PC was being RMA'd at that time, saw the shop had these in stock and thought why not. I just got the PC back and the people from the shop told me that this worked so well that some of them who worked on my PC are now considering switching over :)
I think they were designed mostly with people who have to install and uninstall CPUs/Coolers a lot, such as reviewers, but also, tech/computer repair places when trying to diagnose CPU/Mobo issues when taking a CPU and putting it in a Known Good board to rule out it being the CPU, or just the Socket on the motherboard.
In case anybody wants to know the science behind this graphite pad. Graphite is an anisotropic material (does not behave the same in all directions) where there are atom thick sheets laid on top of each other and are held together through weak van der Waals bonds. Heat transfers relatively well when going from one side of a sheet to the other. However, heat transfers poorly from one sheet to the other. What Kryosheets did with this product is align the graphite sheets vertically so that the heat does not have to pass the van der Waals bonds between the sheets and can flow along the sheets as preferred.
Drying out over time is actually a big problem for systems dying over time... usually when some technician repairs a system most the time they can get it running good again with a clean and new paste.... So for systems that people are going to use maybe for a long time and aren[t going to access the CPU... i think that's a great feature of these pads, providing they last that long.
I bought one and i already used it for two am4 mounts, trimmed it down a bit for am5 then mounted it on two CPU’s again. There’s one direction in which folding it makes it instantly crumble but treat it like it’s made of gold and I can see re-using this for a very long time.
I really don't care that they could be as high as 5 times the cost of a single use tube of paste. The fact I don't have to deal with messy paste is both a time saver and one less thing to stress over.
I have several LGA1155 systems I am getting ready to rebuild to use as simple NAS, media servers, and other uses in my home. My plan is to do a full breakdown, deep clean, then rebuild. I was waiting to buy new paste, but now I am just going to buy the 38mm x 38mm sheets that will fit that socket just fine for nearly twice the cost of the thermal paste I prefer to use. I call this a massive W.
My 7900xt had those 110c junction temp issue so I assumed the pad would fix the heat pump effect if that was the issue.
Now the temp sits around 75c while 4k gaming in ultra. This thing may be pricy but worth
This thingy is grate for service shops... been using it for a while and there is no mess when u need to reapply it. When your done with pc service just put normal thermal paste and ur good to go. Its a bit pricey, but in a long run its much cheaper because u can use it multiple times and there is no cleaning after every use, so it saves time and money :)
needed these when i was upgrading my old lady's cpu cooler to an AIO, cpu got pulled out with the stock cooler and it bent 4 pins. luckily got them straightened out and everything works fine now
oh perfect, i just emailed GN a few days ago to review this, there is like 0 reviews out there on this
The older I get the more things I discover that are more expensive but also way more convenient or user friendly. I always used "normal" sized blankets and never thought about it but one day when I needed new ones I decided to get a size larger. Eye opening. It's so much better that I wonder how I could sleep before.
These things are not just performing as well as thermal paste, they're performing as well as GOOD thermal paste. Nice!
As many people have already said, it would be interesting to see graph comparisons, and given that we’re talking about graphite pads - including the tests of “single-core stress tests” (for example - compressing a large folder into archive on a single core, or 10-minute Cinebench in a similar configuration): as far as I understand, in such scenarios graphite/graphene pads are superior to paste due to the crystal structure of the former that quickly spreads the heat away from a hotspot and along the cooling surface, thus reducing temps in hotspot scenarios way better.
3:09 that was really funny and refreshing. More of that please.
I'm using this on my ryzen 7 5800x3D and temps are great! I love the cleanliness of going this route making disassembly in the future much easier.
Would love to see a comparison test of these sheets to the phase change material sheets to see if there's any difference in performance between the two 😄
Ive been using a thermal pad since LTT spoke about them and was widely shocked how well it preformed. Tried it myself and wasnt dissapointed.
The thing with this will make reviewing coolers better as you do not have to worry about a variable in thermal past application.
I've had a few over the past few years. Love them. Use them for test bench clean and easy to change cpu no mess. Love em. No heat issues with what I use them for
As a first-time user of these with a 14-700K build... I'm really glad I got this, considering all the CPU-swapping I've been doing, thanks to Intel's incompetence with the 13th and 14th gen CPUs. Did a bunch of troubleshooting which included multiple swaps of CPUs, so this was a great time-, effort-, and cost-saver.
That said, I would've REALLY liked to see you test a CLEAN processor. It takes so little effort to remove and clean the extra paste residue off, and the entire point of the video is TEMPERATURES, so I'm *really* disappointed you didn't take the time to do that. Would it make a BIG difference to the end temperatures? Probably not, but even 1° or 2° would've still been nice to know about.