Product Description
Thermal Grizzly
- Thermal Grizzly Conductonaut is a liquid metal thermal compound based on a eutectic alloy. Our special mixture of metals like tin, gallium and indium, Conductonaut excels with a very high thermal conductivity.
- Our Conductonaut liquid metal thermal compound is designed for applications that require very high efficiency.
- Notes: Conductonaut thermal grease must not be used with aluminum heatsinks! Conductonaut is a liquid metal compound and can leave visual residues. For best long term performance results we recommend to use coolers with nickel plated surface.
Thermal Grizzly Conductonaut Thermal Paste
About Conductonaut
Thermal Grizzly Conductonaut is a liquid metal thermal compound based on a eutectic alloy. Our special mixture of metals like tin, gallium and indium, Conductonaut excels with a very high thermal conductivity. We recommend to apply Conductonaut on nickel plated surfaces since this will provide the best long term stability in performance.
Conductonaut is a liquid metal thermal paste developed for high efficiency applications. Conductonaut is recommended as the best product for experienced users who are looking for a solution with the best heat dissipation in the temperature range from over 8 ° C, but also through the risk of electric conduction.
Compatible
- Must not be used with aluminum heatsinks!
- PS3, PS4, PS5
- Xbox 360, One Series S and Series X
- Great for dissipating heat from Macbooks.
- Computer components such as CPU, GPU, LEDs, heat dissipation fins, and fans.
- It can work with almost any system either with air or with liquid nitrogen (down to -50 °C)
- The supplied cap makes it easy to apply the paste precisely.
Thermal Grizzly Conductonaut Set
- Description: Thermal Grizzly Conductonaut is a high performance liquid metal themal compound.
- Properties: Thermal Grizzly Conductonaut liquid metal thermal compound is based on a eutectic alloy. A special combination of metals like tin, gallium and indium results in very high thermal conductivity and excellent long-term stability.
- Application: Thermal Grizzly Conductonaut is recommended for applications that require extremely high thermal conductivity at room temperature – e.g. between a silicon chip PC microprocessor and heat sink. The liquid metal compound compensates even the slightest irregularities, which can not be achieved with convenstional thermal greases.
- Storage: Thermal Grizzly Conductonaut should be stored boxed and under dry conditions at room temperature.
Conductonaut Technical Details
Thermal Conductivity: | 73 W/mk |
Density: | 6.24 g/cm³ |
Consistency: | Liquid |
Colour: | Silver |
Standard size: | 1 g, 5 g |
Possible Thickness: | Variable |
Silicone Based: | No |
Typical Applications: | CPUs, GPUs, Notebooks, ICs |
Recommended Temperature: | 10 °C – 140 °C |
Operating Temperature: | -50° C – 200°C |
Additional Information: | Do not use with aluminum heat sinks |
Mergatroid –
Purchased but not usingI was using a Haswell i7 4770K, and I delidded it and used liquid ultra between the CPU and the heat spreader. This worked excellent for about 5 years until I sold the main board, CPU and RAM. (I hope it keeps working for the guy who bought them).When I replaced my system, I decided to use that same metal TIM on my new 10700K and AIO cooler. I just purchased a new cooler because I was interested in adding more RGB in that area inside my system. While I was waiting for it, I started watching some Youtube videos where people were removing their coolers and inspecting the metal TIM they used. In some cases, after two years the copper cooling plates were slightly pitted and stained, and the TIM had turned hard, requiring it to be sanded off. I was a little shocked.Apparently it’s not good to use this on copper. It’s even worse to use it on aluminum. Do not use it on aluminum at all.Nickel isn’t so bad, and I cleaned my CPU and could still see the writing on the heat spreader, but it was definitely stained. The copper on the waterblock was pitted, but not too badly and that cooler could still be used. The liquid ultra was still liquid and had not turned hard. This was after being on those parts for a year and three months.So I decided not to use metal TIM any more even though I had already ordered this Conductonaut stuff. It, along with what’s left of my liquid ultra, will take a permanent position in a drawer and never see the light of day again. Computer equipment is too expensive to have it ruined by the thermal paste you use.Also, please take what people are saying with a grain of salt. People who replace the TIM on their GPUs and claim a 20-degree drop obviously did not check their temps after replacing the TIM with new regular TIM. If they had of done that, they would have seen a large drop as well. The cooling bottleneck in most thermal interfaces and coolers is not the TIM, unless it is very poor TIM or very old or applied incorrectly. In any of those cases, replacing the TIM with new, properly applied TIM will result in vastly lower temperatures, and metal TIM is not required.After installing my new 360mm cooler and comparing my temps to my old 360mm cooler, they are almost identical even though I am using the TIM that came with the new cooler, and the old cooler was using liquid metal.I won’t waste my money and damage my property using liquid metal TIMs again.
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Rob –
Not for beginners, but excellent value.Obviously using this stuff is TERRIFYING, as you’re acutely aware that one slip up means a dead motherboard, CPU or GPU. It can be a little hard to find out what materials you’re working with, though that’s hardly Thermal Grizzly’s fault.I could’ve used a little more on the instruction side of things, because the window between “not enough” and “way too much” is hilariously easy to miss. Some sort of cleaning compound could also be appreciated. Since I’ve applied it, my CPU (An old AMD FX-4170) has been moved from 4.8GHz to 5.0GHz stable, which is great. My two R9 280X GPUs have both been pushed to 1175MHz on the core, and 1250MHz memory clock, both on the stock cooler. So the actual performance of the product once you’re past the terrifying application stage is second-to-none.It’s also worth mentioning that you get a LOT of the stuff. I hit two GPUs and a CPU, and I still have a significant amount of the stuff left. So there’s a genuine value statement to be made, especially if you’re using it to prod along old hardware like myself.
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Jean-Michel Desrosiers –
The syringe doesn’t slite easilyI work in a hospital and this syringe is not easy to push, it’s stiff and not precise so even with the little tip you could accidentally poir too much if ur not very careful. I recommend you start by just rotating the handle left and right to unstuck it first before pushing to apply the lm. You can rotate it left and right as you push to prevent it from sticking too.
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