Graphite Thermal Pad ? Alternative to Thermal Paste/Grease (40 X 40mm)

I recently used an entire pad of this material for a workstation build I had. It was a 140W CPU with a high performance cooler. I was originally skeptical about the material but after installing and stress testing my CPU and putting it through its paces, the CPU never exceeded 70 degrees. I would say that that is pretty good performance. The pad is very easy to install. Just lay it squarely between the CPU and the heatsink and tighten down the heatsink. No more wasting thermal paste that has squeezed itself out of that space and no more need to clean up the CPU or the heatsink during removal or after installation. Now outside of my personal experience with this material, there are two points of interest that I came across in my research. 1) the sheet does not lend itself to multiple reuse. Through testing done by third parties, it was discovered that once this material has been compressed once (installed into a CPU and heatsink combination) the material is no longer as space filling and will have trouble performing as effectively the second time around. And 2) based on testing data comparing this thermal pad to thermal pastes, the pad performs on par to mid-high tier thermal pastes. With the highest tier of thermal pastes offering a 1 to 2 degree benefit. Obviously if you're overclocking or someone who swaps CPUs quite often, these pads may not be the most economical or best solution for you (as based on the research it would be best to buy a new pad every time). However, for someone like me, where I've installed my CPU and do not foresee myself replacing it, pretty much ever again, these pads are quite convenient and still deliver on the performance I need. So overall, I think it's a great product with good value, but you do have to understand your personal needs for your build to make the right decision about whether these pads are appropriate.

Es un producto de excelente calidad, solo hay que tener cuidado al manipularlo porque se puede rasgar o romper, yo lo recorte a la medida del procesador de mi PS4 con mucho cuidado, colocarlo con cuidado y el ruido generado por alta temperatura desapareció, ahora mi PS4 es extremadamente silencioso y genera mucho menos aire y calor; lo recomiéndo mas que la pasta y el metal liquido.

This stuff is super easy to use. You'll see people complaining about it being slippery and hard to hold in place ... I had to install this under a desk on my home server, which means I could not lay the case flat. (The Corsair H100i V2 pump died and I was replacing it with an H100i Pro). So I put two tiny daubs of regular paste in the top corners of the processor and stuck it on with that. Then I put everything together and fired up the system. I had been using Thermal Grizzly Conductonaut liquid metal before this. It had dried out and failed after two years. It's a serious pain to install and it is really, really hard to get applied correctly. It's almost worse to try to clean it off. I used a Dremel and a buffing wheel and polished it off after getting the bulk removed with ArticClean binary cleaner. I'll never use that stuff again. BUT it did do a good job as a new install until it began failing. The problem is that eventually either your cooling solution or your thermal paste is going to fail and then you're going to be taking things apart ... Degrading thermal paste, even liquid metals, is a serious problem for high use, high availability, high performance, long duration computer systems. I have replaced the thermal paste on the processor for this machine at least a half dozen times because I've had at least a half dozen CPU coolers on this machine. The computer I'm using this pad on is an AMD FX 8350 Black (On an ASUS 990FX Sabertooth R1 board) that's been running this machine for over ten years. Pretty much everything on the machine has been replaced multiple times except for the processor and motherboard. The processor has a nearly 25% overclock running 24/7/365 (4.95 GHz) It serves all my multimedia (which is a LOT) and is my security camera server (22 cameras), plus the computer I use (3 video cards, six monitors) at the main desk in my shop/office/man cave. Because of the camera system, "idle" is never less than around 50% CPU clock cycles. I can and do use it for gaming though I'm not much of a gamer. It's not a gaming computer. Think more along the lines of a semi-truck than a sports car. It works hard. It gets hot. It's still doing a great job after all this time and I have no intention of replacing it one second before I have to. This is VERY impressive performance for a computer. I don't know if I got lucky with processor and board or it's just that this combination is particularly robust. Whatever the reason, it has been and continues to be a truly great machine. I don't want to trust the cooling system to just any old nonsense. That's why I tried Thermal Grizzly liquid metal last time. I thought long and hard about using this pad before buying and installing it. I'm really glad I did. My temps are almost exactly even with what I got with the liquid metal even though this pad is only rated for half the thermal conductivity that the liquid metal is. So the conclusion I've come to is that the liquid metal either wasn't applied optimally, it squeezed out to the edges when the cold plate on the pump was attached or some other unseeable and unknowable problem occurred ... OR both thermal conductors have maxed out the capacity of my cooling solution. It would not be at all surprising as difficult as that stuff is to apply on a vertical surface that there was an unseen problem in the installation. The pad was super easy. I just put a tiny little daub of TX-2 (that I had laying around, nothing special as far as pastes go) on the top corners of the CPU to hold the pad in place while I bolted on the pump. Those two tiny bits of paste are well away from the die and should in no way interfere with the heat carrying capacity of the system. I literally used paste to paste the pad on long enough to finish the installation. It should be noted that I bought the 40x40mm pad which covered the entire lid and that my CPU is obviously not delidded. I think that's important because it establishes maximum conductivity across the largest possible area. It's only $3 more for the larger pad, don't cheap out on this. Be sure to measure your CPU, look up the dimensional specs or just buy the larger pad and be prepared to cut it down. I also polished the CPU and cold plate with a Dremel and a buffing wheel using green rouge. I had to do that to the CPU to get all the liquid metal off so I figured I might as well do the cold plate while I was at it. I didn't lap it, I didn't mate the surfaces perfectly, I just put a semi-mirror polish on the surfaces free handed. Be careful if you do that so as not to create micro-concave areas that will cause problems with gapping. Temperatures are running around 40 degrees normal use (remember I said it never actually goes to "idle" in normal use?) to around 50 under max load and I don't stress test it with Prime95 or anything like that. There's no need to stress test it, all I care about are real-world results and it's under stress just because it's on. When I turn everything off and it is truly idle it sits just a couple degrees F (~24C) above ambient. As mentioned previously, this pad is rated about half the thermal conductivity of the Thermal Grizzly Conductonaut liquid metal it replaced and it does as well or slightly better on my machine. That could mean that both the Thermal Grizzly liquid metal and this pad are maxing out the possible conduction of heat between my CPU and the pump cold plate. This pad is rated for thermal conductivity about four times what MX-4 produces. There are other factors besides thermal conductivity that work together in determining the effectiveness of your cooling solution. If you're not getting as good or better results with this than you did with MX-4, you're doing something wrong and/or one of those other factors needs to be addressed. The incontrovertible proof of that is all the other highly positive reviews. If we're all getting excellent results and you're not, it is very likely something on your end that is the problem and not an issue with this pad. Unlike paste that can have unknown and unseen air gaps, bubbles, uneven spreading etc. this pad is either in place on clean surfaces or it is not. This isn't arbitrary. The physics of this mean that if it works for me, it works the same for you. If it doesn't work for you as well or better than MX-4 or a similar thermal conduction paste then it's a problem that YOU have, not a problem with this pad. I'm not saying people who have issues with this pad don't know what they're doing. I'm merely pointing out the irrefutable logic of the physical science involved. If all the pads are the same (meaning no manufacturing defects) and every installation follows the same basic process on the same basic materials ... (CPU heat spreader/lid > thermal conductor > copper cold plate) And the vast majority of installations are extremely successful but yours isn't -- Then it's not the pad. You need to find that other variable that's causing the problem if you want to get the same positive results the rest of us are getting. It's worth the effort because this pad is an amazing and highly effective solution. I've been building computers for almost 30 years so it's not like I'm a novice at this stuff, but if you want to challenge my logic please feel free to comment and we'll discuss it. SO -- The performance of this thermal pad is phenomenal. I'm very, very happy with it and the fact that it will outlast my water cooler is a big plus. (I now have three water cooler radiators laying around so I may just go to a reservoir fed open liquid system next time, and I can use this pad again if I do.) Time will tell if it actually resists the degradation that thermal paste experiences and if it dies like thermal paste I'll come back and amend this review. If you don't see an edit below then it's still doing a great job and that being the case ... I'll never go back to goop again. 28 December 2020 - Two years later and the pad is still performing like the day I installed it. I have to shut down the machine and clean the radiator about twice a year but that's it. With a clean radiator on the overclocked processor previously mentioned this pad still works like brand new.

I cut this thermal pad and applied on CPU and VGA. Oddly the VGA temperature was a bit higher than thermal compound right after applying, but now the VGA temperature became almost same as using thermal compound. Maybe it was because I slightly had moisture(with Lysol wipes) on VGA cores before applying it for attaching the pad to the core. The pad is extremely slippery, but once your heat sink is fixed then the pad is staying stable too, of course. It was easy to install on CPU while it was difficult to install on VGA since my VGA card has screw holes on opposite side of the VGA chip. I needed to flip the card without moving the pad and that's why I used tiny tiny tiny amount of moisture(with Lysol wipes) on VGA core so the pad wouldn't move while I screwed the heat sink to the VGA card. This pad is conductive so when you install it, you need to be very careful the pad shouldn't be touching other parts of the board(this pad touching other parts of the board could damage your board if power source is connected). This pad is slippery so it keeps moving until the heat sink is fixed good. However, despite this difficulty of installation, the temperature is impressive and once you install it, this pad works like permanent!

I have used quite a few of these. I must have used one of them in like 8 different builds, and that one alone probably got mounted probably around 100 times. I treat these things like liquid hot magma - or perhaps - Faberge Eggs. I mean i baby them and they are never bent, let alone any kind of folding or rough abuse. Always centered on the CPU so there is as little bleed out pressure as possible. you really want even pressure as close to all the edges, evenly, as possible, to really prolong the life of these. Temperatures are impressive. oddly impressive. Like really not much Delta T away from any of the best non conductive pastes. So performance, reuseablility, ease of application and speed to deployment without waiting around for more paste etc - its a win win nobrainer - these things rock and they are super reliable. If youre having issues getting the thing to stay in place on the cpu while you mount, im sure no one here is going to like this, but i almost always take a TINY, TEENY TINY TINY amount of demineralized water and apply it to the back of the pad. then i invert it so any droplets roll off. they never do, theres never enough moisture for that. but then i place it on the cpu die and mount asap. pad is always in the right place and bobs your uncle. Adhesion confirmed successfully.