AlbinoWolf
n00b
- Joined
- Feb 22, 2017
- Messages
- 39
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Yeah but notice how its 3 pipes and the other one is 2, and Vlad is suggesting using 4 flattened but I rather just go with the full copper.To me the table explains that you can dissipate more heat with the 6mm circular pipes. In 20 mm you can dissipate 85.5W with the 3 circular pipes, while the flattened require 22.3 mm to dissipate 78W.
Between the direct touch pipes are little gabs that are not good for transferring heat. Your CPU temp sensor will give you good temps, but in that zones where the gab is above the core, there will be very hot zones that aren't recognize by the sensor.
The aluminum is holding the four pipes tightly together, yet the main feature is that all the pipes have been milled, without gaps between them. This raises the surface area which makes contact, and should also, in turn, increase the efficiency.
It is about direct contact with gaps vs. direct contact without gapsYeah, but, those blocks are made of Aluminium, which doesn't transfer heat as Copper.
I think direct contact to the heat pipes would be better, but it has to be tested.
Definitely I would prefer an advanced AIO.
My understanding from Dondan's post was that the problem isn't with gaps between the direct contact heatpipes, but rather the concentration of heat on the CPU heatspreader. Regardless of whether or not there are gaps or no gaps in a direct contact design, the inner most heatpipes will absorb more heat than the outer ones, reducing the overall efficiency of the design. Using a copper block allows the concentrated heat from the heat spreader on the CPU to be dispersed more evenly throughout all the heatpipes, making the design more efficient.Useful info about Continuous Direct Contact Heat pipes vs. Direct Contact Heat Pipes from Cooler Master patented CDC Technology
http://www.coolermaster.com/cooling/cpu-air-cooler/hyper-212-evo/
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Has Cooljag given you a quote yet?The problem with all that great ideas is, that there are patents on it. So if I like to use it, I have to cooperate with the inventors.
I think we should concentrate on a more simple solution. Working with basic technologies and developing something that is better than current solutions under 50mm
on a fair price level. I am not a thermal engineer and I am not a big company that has the man power to do a lot of testing and research. So my plan is to use simple existing stuff
and order it to a product that was not seen by bigger companies.
Maybe with newer and special technologies I could create a better heatsink, but this will end in a product that will be so expansive that nobody will buy it.
With this design we will have at least the performance level of the Nexus. But my version has more surface ~92.000mm² VS ~140.000mm² and will be made out of full copper.
So I expect a better performance.
The problem with all that great ideas is, that there are patents on it. So if I like to use it, I have to cooperate with the inventors.
I think we should concentrate on a more simple solution. Working with basic technologies and developing something that is better than current solutions under 50mm
on a fair price level. I am not a thermal engineer and I am not a big company that has the man power to do a lot of testing and research. So my plan is to use simple existing stuff
and order it to a product that was not seen by bigger companies.
Maybe with newer and special technologies I could create a better heatsink, but this will end in a product that will be so expansive that nobody will buy it.
With this design we will have at least the performance level of the Nexus. But my version has more surface ~92.000mm² VS ~140.000mm² and will be made out of full copper.
So I expect a better performance.
I'm guessing that a fan can be included if the price is right? Maybe have a TY-100 and Noctua 92mm to be able to swap and or clear different items on the board.
I would prefer it to be shipped with a fan, buying a fan on its own is quite expensive when you add shipping on top... I don't see why a manufacturers fan can't be sold with the cooler as a bundle as long as it is clear that the heatsink is not affiliated with them.
I would prefer it to be shipped with a fan, buying a fan on its own is quite expensive when you add shipping on top... I don't see why a manufacturers fan can't be sold with the cooler as a bundle as long as it is clear that the heatsink is not affiliated with them.
I found a solution for pressure control and stain reliefs for transporting and shocks:
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I assume this will cool better with the fan blowing on the heatsink, rather than away from it. Would a plastic duct (for venting outside the case) help performance? Is the heatsink tall enough that it doesn't need a duct, because it almost touches the case door?
Can't be, can it? This has the fan underneath the heatsink, and that model has the heatsink stuck directly to the mounting plate.PH-TC12LS?
Can't be, can it? This has the fan underneath the heatsink, and that model has the heatsink stuck directly to the mounting plate.
Edit: whoops, got my models confused. Without the top fan, the PH-TC12LS is 1.9 inches tall, which comes out to 48.26mm. That could probably be squished enough that a sufficiently determined user could convince it to fit inside a case like this.
The only question is how it actually performs.