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yeah I;ve concluded it doesn't matter too much, just don't do anything too weird. The reason why it gets so much conversation is because we can't see our result, and it makes people wonder if they got it right so they start looking up how to ensure its done proper.
Thermal paste that is dried on the sides of the socket will not insulate any heat. That is easily debunked. The heat transfer occurs from the cooler touching the top of the CPU and dissipating the heat thru the cooler itself. Insulating the sides of the CPU socket thermal paste will not affect the cooler performance in any way, Thermal dynamics.
Been building computers for 20 years, have used about every thermal paste and method under the sun. It doesn't matter what you do, as long as there's paste. End of story. What, you expected a 200 word essay?
I know I'm late to the video but what you did wrong here was let Aloy run around in circles in an arctic environment. To really stress your CPU, have her run around in a desert. After all, the arctic is colder than the desert, it's easy to keep a cpu cold in the arctic. For those who can't read between the lines, this is a joke.
Great video. I'd argue it *does* make an argument for not going total ham with the paste, but not for thermal reasons. That suction in removing it later could be awful. I'd guess that bubble in the middle of the final test wasn't there while running, but purely from the suction force trying to get the dang thing back off.
I replaced the stock AMD wraith stealth cooler which came with my Ryzen 5 5600, the new cooler was a Raijintek Orcus 240 liquid cooler. After watching a bunch of videos on this channel, I concluded that it wouldn't even be necessary to clean my old thermal paste off. It was only 6 months old, wasn't dried, and came preapplied to the cooler so I trusted it had sufficient coverage. I added all the paste that came with the new cooler and just slapped it on. I did have some thermal paste on hand to do a clean reinstall if necessary. I tested before and after, room at 20°C, maxed CPU with Prime95 10 minute runs, neither setup thermal throttled. Stock setup plateaued at 89°C, new cooler 60°C. I even let the new setup run Prime95 for 30 minutes, did not exceed 60°C. So, yeah, thermal paste is not the big deal it's often made out to be. All the testing I've seen on this channel was very helpful. Just thought I'd share my experience for anyone else going down a similar rabbit hole.
I remember once ripping my CPU from the motherboard with it still stuck to the cooler, in the end nothing was damaged but that certainly gave me a good scare. I've been really careful not using too much paste ever since.
After doing that to an original Pentium and pulling one of the pins out I started pre-heating my chips before removing the cooler. Go stress test it for 5 minutes to build up heat, shut it down, then twist it back and forth to break the bond before lifting it off.
LTT already tested this extensively. They found no difference between a normal amount and a RIDICULOUS amount of thermal paste. Only too little paste made worse results. So always use a little more than just enough instead of a bit too little.
I've had a heatsink glue itself on there when I used too much paste before, and I ripped the CPU out of the socket. Luckily I was able to still use it, but what a scare! Thumbs up for the video.
I've done this and since changed my method to warm the heat sink with a heat gun before trying to take it off using gloves. The heat makes the paste pliable.
Yep, pretty much what every sane person expected. Nice video! Thermal paste or other variants like thermal glue, thermal silicone (or solder in recent years) which typically spills on the sides of the actual die has basically been present on any CPU that has had a factory heatspreader in the past 25+ years. Never has this been a problem, so why would it be for the contact between the heatspreader and cooler heatsink? 🙂
The Spread Method has always been the way I apply my thermal paste and I don't even ad a dimple in the middle for " good measure ". I use AS5 paste though and this paste is much darker and thicker than most pastes so it's easier to judge the evenness of the spread than other pastes. I also use a paper based business card so I can fold it in half for extra space to get into the cpu area without having to remove stuff and it works perfectly every time.
I've always done the spread method. But seeing your other video of maybe there being an air bubble. I'll continue with the spread a thin layer. But then put a tiny dot in the middle. That way there is 100% coverage without a bunch of spill over.
I left a comment on your paste comparison video where I mentioned the Thermalright coolers and the paste included with them. Thermalright makes an AM4 bracket that makes removing the cooler without ripping out the CPU much easier. Luckily I know how to straighten pins safely or that glued cpu issue you had would have destroyed at least 4 of my Ryzen Unfortunately it's not cross compatible with all coolers.
A really fun video to watch. I can see that too much paste is not an issue. (With a nice cooler with good firm and even pressure, and a nice, broad and flat AMD IHS). On the other hand, I can remember to just have an upper limit to how much "too much" paste I am willing to deal with, and then I'll be fine. Thie leaves a LOT OF ROOM to do it right. Anxiety brain calmed. Thanks.
Only if using non conductive paste. Conductive thermal paste, if you use too much, the excess can drip down onto your MOBO, and cause it to short circuit.
The job of thermal paste is to ensure consistent and even contact between heat sink and heat source. The assumption is that too much paste adds excess conductive material, crippling conduction. This is a fallacy, because the distance between heat source and heat sink remains consistent, therefore, the volume and mass of thermal compound will remain the same. Too little thermal compound reduces the surface area of contact between the two surfaces, thus reducing conduction. Spreading the thermal compound across the heat source ensures *close to optimum* surface area contact between the two surfaces, hence, better conduction. This is all assuming best case scenarios; nothing is ever at best case.
So... I found out the hard way what happens when you use too much paste over the LONG term. When I went to pull my Wraith cooler off of my 2700x so I could put in my new 5600x, the cooler took the whole CPU with it. Ripped it straight out of locked position on the board. I had to use the side of a plastic knife to pry and pull and finally pop the CPU off of the cooler. (It wasn't damaged and due to my dumb self forgetting to update my BIOS I actually had to put the 2700x back in to do the update) The combination of the grooves in the wraith cooler and the fact I used too much paste, causing it to spill over the side, over time the paste turned into kind of a cement-y consistency. It literally cemented my CPU to my cooler. That being said, the entire time I used it with that much paste, even towards the end of changing the CPU, my Temps never changed to anything concerning, maintaining my expectations while using an air cooler.
The biggest thing that was not included in this test, your ambient temperatures. That is the most important thing during these kinds of tests. This tests really means nothing without ambient temps included.
@@TechIlliterate I will say this was the first video I watched of yours, not even sure why it was recommended, but, I will say I did browse your channel afterwards and I do like your content so I hope you don't take offense to my comment. However, it will validate your experiments much more when including ambient temps. I wish you continued success with your channel !
Nice, the more info like this out there the better. People think thermal paste application is an artform. It's not. Application of paste is simply binary, just like CPUs. 1) You don't have enough. 2) You have enough. That's it. Do what you want to get it on there. A pea, an x, spread like butter, spread like jam, portrait of the Mona Lisa, at the end of the day either you put enough on, or you didn't.
Just watched your few related videos. And finaly some one smashed this fully! I'm Gonna draw N letter (as my firts initial) in area of half of the size the chip, in the middle and this why I leave my spirit to work on magic numbers :)) Thanks
In the end, it is very basic thermodynamics, that covers the topic on the theoretical side. And that might give some context for your data and the assumption that too much is bad. The transferred power of heat goes linear with the thickness, the contact area, the temperature difference and some coefficient. So the "two much" probably refers to the thickness, double the thickness means half of the heat is conducted. But the thickness is barely determined by the amount (volume) of paste you apply but rather the consistency and the pressure. So yes, too much paste meaning a too thick layer will decrease heat transfer. No, the amount paste you put on will not change (much) the thickness of the layer. Also, half the area means half heat is transferred, at least via the paste. So even where there is too little paste and not the entire chip is covered, there is definitely less heat going through the paste. However, the area where there is no paste, there is not no heat transfer, just less. Your data showed that very nicely. The time plots of the temperatures would have been nice, also because I am very sure that the data noise would have shown very clearly, that the temperatures are all within the margin of error except probably the too little one. Also I think the rise of temperatures is the more sensitive property that shows any tiny difference of heat transfer. But that of course does not change the result that the amount of paste has barely any effect on the heat transfer.
great video. 'normal people insane' HAHAHA love that phrase. I'll stick to my spread method... worked fine for 25years of building my own PC's. great channel. keep up the awesome work. got a feeling you'll bmake a video that'll blow up YT any day now.
If you use conductive paste, and it gets on your mobo, it will short cirtcuit. Too much paste isn't a problem only if using non conductive paste. With conductive paste you need to be very careful not adding too much.
@8:00 - Nasty not being able to get the cooler off like that. Motherboard manufacturers really should make the CPU release lever longer for situations like that so that you can just pull the whole thing out and pry them apart with a chisel or whatever. :)
The too little definitely wasn't making good enough contact, those few degrees aren't going to hurt anything but definitely worth doing a normal pea-sized drop. The rest of the tests I'd be curious about room temperature and overall margin of error, very interesting to see that they all perform roughly similar. I've been an Arctic Silver 5 fan for a long time so I've been careful not to over apply due to its conductive nature but good to know that if I get a little heavy-handed it's just going to squeeze the extra out the side.
I've been wondering if thermal paste goes bad while in its container. For instance is it worth buying 10g thermal paste and use for the next couple of years or is it better to buy it when you need it.
The only time it'll really be an issue is if you use a paste that is electrically conductive and capacitive like artic silver 5, or other metal based pastes, with artic silver 5's "silver" particles inside which can short out other components on the board from spilling over too much, the other issue is dust attraction, dust eventually can begin to act like an electrical conductor not just a thermal insulator, electrical conductivity in varying degrees depending especially on it's composition, which is purely environmental, when it squishes out the sides of under the cooler, it can build up dust around the base of the CPU's ihs heat spreader or further and potentially form dust bunnies over time, really it's not a bad thing to put a decent thin foam airtake inlet filter on the case to help keep things clean. Artic Coolings mx6 carbon based thermal paste is a great choice as it is non electrically conductive or capacitive.
From my experience, more is better, especially with laptops. I measured it. Don't just do it on the small silver chip (generous amount), but also apply "big" lines of thermal paste to the square on the sides of the heatsink. so that the entire CPU under the heatsink is filled with thermal paste. In my case, it made a 10° difference at 100% CPU. Some of it comes out, but you can wipe it away. It may look a bit too much and like a mess, but the results are amazing. In my case, on two notebooks (one of them 12 years old with i7). But of course it doesn't have to be electrically conductive (like mx4). I can't test how it behaves with desktop CPUs at the moment. But they have a bigger place for thermalpaste in general!
20 or so years ago too much paste could and did cause overheats , i think nowdays the heatsink securing hardware is tighter and more even so it tends to squeeze excess out more reliably
So the result is: mounting methode is key. Buy cooler which does the best job at screwing it down with the perfect amount of pressure. Another test would be: just put the cooler on. No pressure. Just a bit of pressure. Screw it down like the company intended. Because too much paste+not enough pressure will such hard.
thermal paste has a lower heat coefficient, so the saying 'less is best' is there. You sprinkle a small dot in the middle and really wiggle that cooler around, but you should eventually see the bare metal of the bottom metal plate. The point of the paste is to fill in the gaps between the metals, not become the entire gap between the metals. Maybe if you used 'liquid' metal like in the PS5 it would be better, but that is a very difficult method to replace since liquid metal can instantly ruin your motherboard. I can guess how many PS5s have been ruined due to liquid metals alloys (if you ever used mercury, NEVER do that! Instantly turns aluminum into crumbly dust)
Another tuber already proved that paste conductivity has a negligible increase from no paste at all. Your own video also showed this though you're baseline was not a correct baseline. A correct baseline would have been no paste.
For the record, in my experience, using too much thermal paste can lead to long-term thermal throttling. I’ve experienced this myself. Also, I believe that quality thermal paste isn’t cheap. If you’re looking to buy a good thermal paste, it’s worth investing in a quality product. For reference, I use a ROG gaming laptop, and a simple pea size 1 gram, good-quality thermal paste works just fine for me.
So basically the temperature differences could have been down to the room temperature changing. Which shows, that in the short term, there's no difference between too little and too much
Tests must have a system which can't go into thermal throttling. All clock and voltages must be fixed in BIOS and OS. And the test runs need to be done of a length of time for heat soaking, and you must eliminate variables like ambient temp and water cooling coolant temp. A short test run may be only showing the initial heat up of the die and is heatsinked off by the IHS. Personally I only use the spread method, for a complete coverage and the thinnest layer possible, as ALL thermal paste is an insulator compared to the two metal interfaces' coefficient of heat.
I have tried several different methods and the one that works the best is to make sure you get some between the heatsink and the CPU. I just squeeze out a fat pea sized blob in the center and mount the heatsink. I intentionally add what I think is a little too much. I've got lots of 91% alcohol and paper towels if I accidentally make a mess. I used to fuss over stuff like this and actually since socket A it really hasn't mattered.
I always used the 'buttered toast' method. (Yeah I know it sounds like hindsight is a wonderful science. However it always felt like common sense.) There is one thing to add, which is that I paste the CPU when it's out of the socket. .. Noted you having difficulty spreading with it in the socket.
Not the first video of this type, but informative and conclusion is the same. I think it way LTT testing amount of paste on CPU and Jayz2cents, when messing about with some gpu where he covered die and area around it within those metal brackets. Card was fine.
I once applied too much thermal paste, it drowned my cpu, had to remove it and clean it with an extra thin needle because some paste went inside the slot lol. Si yeah, too much paste can kill it. Anyway, great vid.
I think it matters little so long as there is adequate coverage on the cpu.. but I think if you want to best spread on a cpu, I would go with spread and small pea..
too much thermal paste being a problem is only valid if your paste is electrically conductive and it gets into places it shouldn't, shorting out things on your pc is bad, but non-conductive pastes aren't an issue if you put too much on there. one point of testing you could have done, no thermal paste at all, that may have crashed on cinabench or maybe thermal throttled, and of course higher temps, i wouldn't be too worried about it causing permanent damage, cause the cpu will throttle to save its self if it gets too hot and even shut down if way to hot.
I applied too much thermal paste on my CPU, but the pc is working fine and there's a noticeable fps boost on the games that i play. unfortunately this also makes the heatsink stuck to the CPU. Should i just let it be and try to take it off when i want to reapply the thermal paste again sometimes in the future?
Too much paste, to little paste, It's actually making me crazy I did my PC And I put a good amount of paste on it, My CPU temperature is Under 60 Celsius At all times I'll just see how it goes if there are issues I'll just do it over it's very easy to do thanks for the video
I have some other question. Is using laptop on a flat surface enough or do I need a stand? (like I play games only occasionally, mostly I just use laptop to multi-task browsing, writing, music, streaming & watching videos).
They usually come with tine feet to get enough airflow but if you want better cooling, and thus better performance even by a little, getting a stand with fans will do great.
I think the point of less=better is the fact of the next time you won't have to clean off so much paste i hate touching old thermal goop that stuff will not stay off of ur fingers or your clothes lol
the clamping force is going to force the paste out no matter how much you put. it's really silly to think a paste is going to have a thick layer after it been smashed to hell.
What a lot of people fail to know, is the CPU isn't the same size as the lid. The CPU is only the size of your thumbnail in the center of that lid; hence you only need a little dot of paste in the center.
Hey just one question, were your fans working at a constant rpm through out these tests or were they throtteling up and down to keep a constant temperature?
You should run a repeatable full load test like stress(-ng) or prime95. But then, if you put too much paste on... the IHS and the block will squeeze it out anyway!
Hello. What settings do you have your ryzen 5900x running at? I have the same cpu and a negative curse of -15 and I have higher temps than you. I have corsair h115i pro for cooling. Just curious about your pbo settings. Thanks.
The thickness of the pastes is inverse proportional to the weight you put on top. The ideal case is to apply while the CPU is hot (lower surface tension, thus making the paste escape easier) and apply as much weight as the motherboard can support.
I have just commented on another video involving paste and I reiterate my previous comment. It's hard to screw this up. However - Have you ever tested with NO thermal paste? Perhaps that should have been a benchmark?
I think the cpu is holding the temperature at that same point by reducing clocks or something no matter the amount of thermal paste. I think benchmarks could give you more accurate results.
you know, there is something under the lid that transfers heat between the actual CPU and the CPU lid. no amount of paste is going to cure if you have defective thermal transfer between chip and lid. which might explain your results.
Good day Sir. I hope you are doing great Please get back to me about below 3 questions. 1: What if you put too much paste and it spilled onto your mother board and because of the way your device is designed, you weren't able to see and clean up the spill and continue using the device? 2: How long after paste application can I power up? 3: How effective will it be if after adding the paste and leaving it to heal for some hours, you pull out the CPU again, clean out any spillage on the mother board, etc., put the CPU back onto the same paste (no new paste addition) and use? Thank you. Safe day
first of all depending on the paste if its metal then your doomed and MOST LIKELY shorted the motherboard but if its paste thats not conductive electrically then your fine also depends on how close other components are to socket for cpu #2: you can power up imidiatly if desired no wait time. #3: not as effective as before since they advise dont move the cooler when you apply the fan or aio after pasting so I would say youd have to repaste to get full benifits of it (takeaway= not as effective)
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yeah I;ve concluded it doesn't matter too much, just don't do anything too weird. The reason why it gets so much conversation is because we can't see our result, and it makes people wonder if they got it right so they start looking up how to ensure its done proper.
Hey, do you maybe know how much termal putty do you need for the whole gpu
Not too much not too little, meaning medium peasized.
Thermal paste that is dried on the sides of the socket will not insulate any heat. That is easily debunked.
The heat transfer occurs from the cooler touching the top of the CPU and dissipating the heat thru the cooler itself.
Insulating the sides of the CPU socket thermal paste will not affect the cooler performance in any way, Thermal dynamics.
Genius.
Been building computers for 20 years, have used about every thermal paste and method under the sun.
It doesn't matter what you do, as long as there's paste. End of story. What, you expected a 200 word essay?
😅
But how can I irrationally dunk on people with this?
what does it means a "method under the sun ?"
@@Engeryu anything that people on earth have done.
@@RambleOn07 Aaah okay thx not english native so i understood that was an expression, but what does that meant ^^'
I know I'm late to the video but what you did wrong here was let Aloy run around in circles in an arctic environment. To really stress your CPU, have her run around in a desert. After all, the arctic is colder than the desert, it's easy to keep a cpu cold in the arctic.
For those who can't read between the lines, this is a joke.
Great video. I'd argue it *does* make an argument for not going total ham with the paste, but not for thermal reasons. That suction in removing it later could be awful.
I'd guess that bubble in the middle of the final test wasn't there while running, but purely from the suction force trying to get the dang thing back off.
I loved this playlist, with a $3,500 PC sitting here in parts waiting for me to build it, this was excellent information.
I replaced the stock AMD wraith stealth cooler which came with my Ryzen 5 5600, the new cooler was a Raijintek Orcus 240 liquid cooler.
After watching a bunch of videos on this channel, I concluded that it wouldn't even be necessary to clean my old thermal paste off. It was only 6 months old, wasn't dried, and came preapplied to the cooler so I trusted it had sufficient coverage. I added all the paste that came with the new cooler and just slapped it on. I did have some thermal paste on hand to do a clean reinstall if necessary.
I tested before and after, room at 20°C, maxed CPU with Prime95 10 minute runs, neither setup thermal throttled. Stock setup plateaued at 89°C, new cooler 60°C. I even let the new setup run Prime95 for 30 minutes, did not exceed 60°C.
So, yeah, thermal paste is not the big deal it's often made out to be. All the testing I've seen on this channel was very helpful. Just thought I'd share my experience for anyone else going down a similar rabbit hole.
I remember once ripping my CPU from the motherboard with it still stuck to the cooler, in the end nothing was damaged but that certainly gave me a good scare.
I've been really careful not using too much paste ever since.
just happened to me today with the preapplied paste :P
After doing that to an original Pentium and pulling one of the pins out I started pre-heating my chips before removing the cooler. Go stress test it for 5 minutes to build up heat, shut it down, then twist it back and forth to break the bond before lifting it off.
@@406Steven Copy that, 10-4...good tip, for sure!
"normal-people insane" is a great term
LTT already tested this extensively.
They found no difference between a normal amount and a RIDICULOUS amount of thermal paste.
Only too little paste made worse results.
So always use a little more than just enough instead of a bit too little.
People still leaving my comments on the daily claiming the contrary smh...
I've had a heatsink glue itself on there when I used too much paste before, and I ripped the CPU out of the socket. Luckily I was able to still use it, but what a scare! Thumbs up for the video.
I've done this and since changed my method to warm the heat sink with a heat gun before trying to take it off using gloves. The heat makes the paste pliable.
Thermal paste is something people with too much free time think about
You did the tests we didnt dare to. Thank you
Yep, pretty much what every sane person expected. Nice video!
Thermal paste or other variants like thermal glue, thermal silicone (or solder in recent years) which typically spills on the sides of the actual die has basically been present on any CPU that has had a factory heatspreader in the past 25+ years. Never has this been a problem, so why would it be for the contact between the heatspreader and cooler heatsink? 🙂
The Spread Method has always been the way I apply my thermal paste and I don't even ad a dimple in the middle for " good measure ". I use AS5 paste though and this paste is much darker and thicker than most pastes so it's easier to judge the evenness of the spread than other pastes. I also use a paper based business card so I can fold it in half for extra space to get into the cpu area without having to remove stuff and it works perfectly every time.
LOL! I like your style, dude. Well done!
Hey, thanks!
I've always done the spread method. But seeing your other video of maybe there being an air bubble. I'll continue with the spread a thin layer. But then put a tiny dot in the middle. That way there is 100% coverage without a bunch of spill over.
I left a comment on your paste comparison video where I mentioned the Thermalright coolers and the paste included with them.
Thermalright makes an AM4 bracket that makes removing the cooler without ripping out the CPU much easier. Luckily I know how to straighten pins safely or that glued cpu issue you had would have destroyed at least 4 of my Ryzen
Unfortunately it's not cross compatible with all coolers.
A really fun video to watch. I can see that too much paste is not an issue. (With a nice cooler with good firm and even pressure, and a nice, broad and flat AMD IHS). On the other hand, I can remember to just have an upper limit to how much "too much" paste I am willing to deal with, and then I'll be fine. Thie leaves a LOT OF ROOM to do it right. Anxiety brain calmed. Thanks.
Only if using non conductive paste. Conductive thermal paste, if you use too much, the excess can drip down onto your MOBO, and cause it to short circuit.
The job of thermal paste is to ensure consistent and even contact between heat sink and heat source. The assumption is that too much paste adds excess conductive material, crippling conduction. This is a fallacy, because the distance between heat source and heat sink remains consistent, therefore, the volume and mass of thermal compound will remain the same.
Too little thermal compound reduces the surface area of contact between the two surfaces, thus reducing conduction.
Spreading the thermal compound across the heat source ensures *close to optimum* surface area contact between the two surfaces, hence, better conduction.
This is all assuming best case scenarios; nothing is ever at best case.
So... I found out the hard way what happens when you use too much paste over the LONG term.
When I went to pull my Wraith cooler off of my 2700x so I could put in my new 5600x, the cooler took the whole CPU with it. Ripped it straight out of locked position on the board. I had to use the side of a plastic knife to pry and pull and finally pop the CPU off of the cooler. (It wasn't damaged and due to my dumb self forgetting to update my BIOS I actually had to put the 2700x back in to do the update)
The combination of the grooves in the wraith cooler and the fact I used too much paste, causing it to spill over the side, over time the paste turned into kind of a cement-y consistency. It literally cemented my CPU to my cooler.
That being said, the entire time I used it with that much paste, even towards the end of changing the CPU, my Temps never changed to anything concerning, maintaining my expectations while using an air cooler.
The biggest thing that was not included in this test, your ambient temperatures. That is the most important thing during these kinds of tests. This tests really means nothing without ambient temps included.
I do my best to keep ambient static and record it in my tests. Though I will start adding it in my videos. Thank you.
@@TechIlliterate I will say this was the first video I watched of yours, not even sure why it was recommended, but, I will say I did browse your channel afterwards and I do like your content so I hope you don't take offense to my comment. However, it will validate your experiments much more when including ambient temps. I wish you continued success with your channel !
Nice, the more info like this out there the better. People think thermal paste application is an artform. It's not. Application of paste is simply binary, just like CPUs.
1) You don't have enough.
2) You have enough.
That's it. Do what you want to get it on there. A pea, an x, spread like butter, spread like jam, portrait of the Mona Lisa, at the end of the day either you put enough on, or you didn't.
Just watched your few related videos. And finaly some one smashed this fully! I'm Gonna draw N letter (as my firts initial) in area of half of the size the chip, in the middle and this why I leave my spirit to work on magic numbers :)) Thanks
In the end, it is very basic thermodynamics, that covers the topic on the theoretical side. And that might give some context for your data and the assumption that too much is bad.
The transferred power of heat goes linear with the thickness, the contact area, the temperature difference and some coefficient. So the "two much" probably refers to the thickness, double the thickness means half of the heat is conducted. But the thickness is barely determined by the amount (volume) of paste you apply but rather the consistency and the pressure. So yes, too much paste meaning a too thick layer will decrease heat transfer. No, the amount paste you put on will not change (much) the thickness of the layer.
Also, half the area means half heat is transferred, at least via the paste. So even where there is too little paste and not the entire chip is covered, there is definitely less heat going through the paste. However, the area where there is no paste, there is not no heat transfer, just less. Your data showed that very nicely.
The time plots of the temperatures would have been nice, also because I am very sure that the data noise would have shown very clearly, that the temperatures are all within the margin of error except probably the too little one. Also I think the rise of temperatures is the more sensitive property that shows any tiny difference of heat transfer. But that of course does not change the result that the amount of paste has barely any effect on the heat transfer.
Excellent work!
great video. 'normal people insane' HAHAHA love that phrase.
I'll stick to my spread method... worked fine for 25years of building my own PC's.
great channel. keep up the awesome work. got a feeling you'll bmake a video that'll blow up YT any day now.
If you use conductive paste, and it gets on your mobo, it will short cirtcuit. Too much paste isn't a problem only if using non conductive paste. With conductive paste you need to be very careful not adding too much.
@8:00 - Nasty not being able to get the cooler off like that. Motherboard manufacturers really should make the CPU release lever longer for situations like that so that you can just pull the whole thing out and pry them apart with a chisel or whatever. :)
The too little definitely wasn't making good enough contact, those few degrees aren't going to hurt anything but definitely worth doing a normal pea-sized drop. The rest of the tests I'd be curious about room temperature and overall margin of error, very interesting to see that they all perform roughly similar. I've been an Arctic Silver 5 fan for a long time so I've been careful not to over apply due to its conductive nature but good to know that if I get a little heavy-handed it's just going to squeeze the extra out the side.
"Squeeze the extra out the side "
... That's what she said.
(This was posted on Valentine's Day)
@@renewagain6956 Well played 👌
I've been wondering if thermal paste goes bad while in its container. For instance is it worth buying 10g thermal paste and use for the next couple of years or is it better to buy it when you need it.
Ive got a syringe of arctic silver, 50g, Ive had it over 12 years, its still good stuff imo.
@@no1baggiefan I would agree. Most will keep for many years. Though some are apt to separating.
i had a tube of of the larger arctic silver5 for 10 years, mine dried out but it had only enough for maybe 2 applications left in it
The only time it'll really be an issue is if you use a paste that is electrically conductive and capacitive like artic silver 5, or other metal based pastes, with artic silver 5's "silver" particles inside which can short out other components on the board from spilling over too much, the other issue is dust attraction, dust eventually can begin to act like an electrical conductor not just a thermal insulator, electrical conductivity in varying degrees depending especially on it's composition, which is purely environmental, when it squishes out the sides of under the cooler, it can build up dust around the base of the CPU's ihs heat spreader or further and potentially form dust bunnies over time, really it's not a bad thing to put a decent thin foam airtake inlet filter on the case to help keep things clean. Artic Coolings mx6 carbon based thermal paste is a great choice as it is non electrically conductive or capacitive.
This is helpful, thanks!
I apply thermal paste with my fingers, it is just a bit stainy , but overall no difference with applying it with a plastic flat tool.
Finally a TH-cam video that found a use for those gigantic thermal paste syringes 😃
if you think this is too much, you haven't seen gamers nexus video on thermal paste
@@gustavosifuentes292 lmao that amount of paste going to fill my bathub
@Ms Moon Boo 👍😁
From my experience, more is better, especially with laptops. I measured it. Don't just do it on the small silver chip (generous amount), but also apply "big" lines of thermal paste to the square on the sides of the heatsink. so that the entire CPU under the heatsink is filled with thermal paste. In my case, it made a 10° difference at 100% CPU. Some of it comes out, but you can wipe it away. It may look a bit too much and like a mess, but the results are amazing. In my case, on two notebooks (one of them 12 years old with i7). But of course it doesn't have to be electrically conductive (like mx4). I can't test how it behaves with desktop CPUs at the moment. But they have a bigger place for thermalpaste in general!
20 or so years ago too much paste could and did cause overheats , i think nowdays the heatsink securing hardware is tighter and more even so it tends to squeeze excess out more reliably
So the result is: mounting methode is key. Buy cooler which does the best job at screwing it down with the perfect amount of pressure. Another test would be: just put the cooler on. No pressure. Just a bit of pressure. Screw it down like the company intended. Because too much paste+not enough pressure will such hard.
thermal paste has a lower heat coefficient, so the saying 'less is best' is there. You sprinkle a small dot in the middle and really wiggle that cooler around, but you should eventually see the bare metal of the bottom metal plate. The point of the paste is to fill in the gaps between the metals, not become the entire gap between the metals.
Maybe if you used 'liquid' metal like in the PS5 it would be better, but that is a very difficult method to replace since liquid metal can instantly ruin your motherboard. I can guess how many PS5s have been ruined due to liquid metals alloys (if you ever used mercury, NEVER do that! Instantly turns aluminum into crumbly dust)
another issue with liquid metal is that it eats aluminum. so the IHS of the processor would get ruined by it
Best way to clean thermal paste is using Brake cleaner.Runs off and leaves no residue behind and not hard on electronics. Been doing so since 1979.
Personally I like to use the spread method so I can make sure it's all covered and I am not using too much.
Now you should a guitar video about "Tone wood" 😁
I think all those numbers are statistically insignificant.
Criminally underrated channel
Thank you 🙏
Another tuber already proved that paste conductivity has a negligible increase from no paste at all. Your own video also showed this though you're baseline was not a correct baseline.
A correct baseline would have been no paste.
That's a good point. I did make a video where I tried no paste. the difference was something but not deadly at all.
Thanks for the video!
For the record, in my experience, using too much thermal paste can lead to long-term thermal throttling. I’ve experienced this myself. Also, I believe that quality thermal paste isn’t cheap. If you’re looking to buy a good thermal paste, it’s worth investing in a quality product. For reference, I use a ROG gaming laptop, and a simple pea size 1 gram, good-quality thermal paste works just fine for me.
Thank you, I'll just stick with my stock thermal paste provided by BeQuiet Dark Rock Pro4 on my 5950x.
So basically the temperature differences could have been down to the room temperature changing. Which shows, that in the short term, there's no difference between too little and too much
Hell, it could have even been down to a fart
Good job. 🤣
Tests must have a system which can't go into thermal throttling. All clock and voltages must be fixed in BIOS and OS. And the test runs need to be done of a length of time for heat soaking, and you must eliminate variables like ambient temp and water cooling coolant temp. A short test run may be only showing the initial heat up of the die and is heatsinked off by the IHS.
Personally I only use the spread method, for a complete coverage and the thinnest layer possible, as ALL thermal paste is an insulator compared to the two metal interfaces' coefficient of heat.
BASS LINE, you got me there...
How well are you controlling the ambient temperature? The small deltas are too small to discern from ambient variances.
I have tried several different methods and the one that works the best is to make sure you get some between the heatsink and the CPU. I just squeeze out a fat pea sized blob in the center and mount the heatsink. I intentionally add what I think is a little too much. I've got lots of 91% alcohol and paper towels if I accidentally make a mess. I used to fuss over stuff like this and actually since socket A it really hasn't mattered.
I always used the 'buttered toast' method. (Yeah I know it sounds like hindsight is a wonderful science. However it always felt like common sense.) There is one thing to add, which is that I paste the CPU when it's out of the socket. .. Noted you having difficulty spreading with it in the socket.
This causes air bubbles unless you add a pea on top of the butter
@@worldwide78128 Since it offers the best thermal results, I doubt it.
Great video
9:03 Okay, okay... I think it's colorful :)
Not the first video of this type, but informative and conclusion is the same. I think it way LTT testing amount of paste on CPU and Jayz2cents, when messing about with some gpu where he covered die and area around it within those metal brackets. Card was fine.
I want to see just pure thermal paste as the cooler - as much paste as you can pile up
I once applied too much thermal paste, it drowned my cpu, had to remove it and clean it with an extra thin needle because some paste went inside the slot lol.
Si yeah, too much paste can kill it.
Anyway, great vid.
I think it matters little so long as there is adequate coverage on the cpu.. but I think if you want to best spread on a cpu, I would go with spread and small pea..
too much thermal paste being a problem is only valid if your paste is electrically conductive and it gets into places it shouldn't, shorting out things on your pc is bad, but non-conductive pastes aren't an issue if you put too much on there. one point of testing you could have done, no thermal paste at all, that may have crashed on cinabench or maybe thermal throttled, and of course higher temps, i wouldn't be too worried about it causing permanent damage, cause the cpu will throttle to save its self if it gets too hot and even shut down if way to hot.
That was some Confucius wisdom on that final quote there
I applied too much thermal paste on my CPU, but the pc is working fine and there's a noticeable fps boost on the games that i play. unfortunately this also makes the heatsink stuck to the CPU. Should i just let it be and try to take it off when i want to reapply the thermal paste again sometimes in the future?
the longer you wait the harder it will dry and get more and more difficult to remove so you might not want to wait too much
Too much paste, to little paste, It's actually making me crazy I did my PC And I put a good amount of paste on it, My CPU temperature is Under 60 Celsius At all times I'll just see how it goes if there are issues I'll just do it over it's very easy to do thanks for the video
I have some other question. Is using laptop on a flat surface enough or do I need a stand?
(like I play games only occasionally, mostly I just use laptop to multi-task browsing, writing, music, streaming & watching videos).
They usually come with tine feet to get enough airflow but if you want better cooling, and thus better performance even by a little, getting a stand with fans will do great.
I think the point of less=better is the fact of the next time you won't have to clean off so much paste i hate touching old thermal goop that stuff will not stay off of ur fingers or your clothes lol
Your cooler and the number of heat pipes is going to have more of an effect on temperature than your application of thermal paste.
How did you control for ambient temperature?
Have been looking for a video of just this test, thanks you! Also you present your data in a good clear way.
the clamping force is going to force the paste out no matter how much you put. it's really silly to think a paste is going to have a thick layer after it been smashed to hell.
That's what Smithers said.
I think it depends on the CPU cooler honestly I hear liquid cooling is superior I might try it....
How many of these videos need to be made before people finally shut the hell up about "too much" thermal paste
Thermal paste has a shelf life, if you're someone who isn't going to use it it's irrelivant how much you're saving to throw away later.
normal amount is good for me
What a lot of people fail to know, is the CPU isn't the same size as the lid. The CPU is only the size of your thumbnail in the center of that lid; hence you only need a little dot of paste in the center.
Hey just one question, were your fans working at a constant rpm through out these tests or were they throtteling up and down to keep a constant temperature?
fans at a constant 50% - 2:06
For CPU grinding try X4 Foundations with the expansions. That game made my PC thermal throttle on a stock cooler. ( i7-7700 )
I think because the paste gets pushed out, as long as you have enough pressure on the cooler then it should be fine is my prediction.
thanks alot for good test
You should run a repeatable full load test like stress(-ng) or prime95.
But then, if you put too much paste on... the IHS and the block will squeeze it out anyway!
Hello. What settings do you have your ryzen 5900x running at? I have the same cpu and a negative curse of -15 and I have higher temps than you. I have corsair h115i pro for cooling. Just curious about your pbo settings. Thanks.
Bro are you the leader singer of Small Town Titans? I honestly can't tell. Great vid.
The thickness of the pastes is inverse proportional to the weight you put on top. The ideal case is to apply while the CPU is hot (lower surface tension, thus making the paste escape easier) and apply as much weight as the motherboard can support.
I think my M1 Mac Mini is always cool always quiet. 😄
so it doesn't matter at all.
I have just commented on another video involving paste and I reiterate my previous comment. It's hard to screw this up.
However - Have you ever tested with NO thermal paste? Perhaps that should have been a benchmark?
He has done that. He referenced it in this video and I think he said it made little difference.
I think the cpu is holding the temperature at that same point by reducing clocks or something no matter the amount of thermal paste. I think benchmarks could give you more accurate results.
This is actually a very interesting theory and would be interesting to explore in a video!
I guess you missed the part where he ran cinebench?
I think it doesn't matter as long you have a full application
you know, there is something under the lid that transfers heat between the actual CPU and the CPU lid. no amount of paste is going to cure if you have defective thermal transfer between chip and lid. which might explain your results.
Doubtful. I have had similar experiences with other AMD and Intel chips.
good video, thanks- also entertaining ;-)
Amount of paste was never about thermals. It was about clean up and removing of heatsinks. Been that way forever in the server world
all of my bias' have been confirmed!
Me putting too much thermal paste on my gaming cpu: 😅
Good day Sir. I hope you are doing great
Please get back to me about below 3 questions.
1: What if you put too much paste and it spilled onto your mother board and because of the way your device is designed, you weren't able to see and clean up the spill and continue using the device?
2: How long after paste application can I power up?
3: How effective will it be if after adding the paste and leaving it to heal for some hours, you pull out the CPU again, clean out any spillage on the mother board, etc., put the CPU back onto the same paste (no new paste addition) and use?
Thank you. Safe day
first of all depending on the paste if its metal then your doomed and MOST LIKELY shorted the motherboard but if its paste thats not conductive electrically then your fine also depends on how close other components are to socket for cpu
#2: you can power up imidiatly if desired no wait time.
#3: not as effective as before since they advise dont move the cooler when you apply the fan or aio after pasting so I would say youd have to repaste to get full benifits of it (takeaway= not as effective)
You need more subscribers :(
Peanut butter had about the same result. Choosy mothers choose Jiff.
Copper foil, like multiple layers pressed in sandwich. Wonder what that would do... "Searching on ebay for copper foil" 🤔
Would it be simpler to say in the title whether or not it is, then people can watch to see what happens?
Yeah maybe I'll try that approach.