The goal is to supply the overclocker scene with high-performance thermal conductivity products, which are still a weak point - but the product portfolio can also be used for better and quieter cooling of gaming computers, workstations, mini-PCs and many other purposes. In addition to higher clock rates, better thermal conductivity products enable quieter cooling and a longer service life for the components to be cooled.
In order to achieve these goals, Thermal Grizzly worked closely with the well-known extreme overclocker Roman "der8auer" Hartung on product development and tested it, developed chemical compositions and analyzed competitors. The resulting products are extremely popular in the overclocking community.
The thermal compound, dubbed Kryonaut Extreme, is aimed at extreme overclockers with its outstanding thermal conductivity. As its name suggests, it is ideal for low-temperature cooling such as nitrogen or compressor cooling. Compared to the Kryonaut thermal paste, the finer basic particles of the Kryonaut Extreme ensure a lower risk of "cracking" and impaired thermal conductivity due to the high temperature differences when cooling with nitrogen. The Kryonaut Extreme is suitable for particularly low temperatures down to -250 ° C.
Tin oxide components and particularly fine nano-aluminum oxide particles are embedded in a carrier structure, which optimally compensate for unevenness on the surfaces of the heat source and heat sink and offer outstanding thermal conductivity. The Kryonaut Extreme is also characterized by the fact that it does not dry out even at a high temperature of 80 ° C and is not electrically conductive.
The Kryonaut Extreme thermal paste comes here as a can with 9 milliliters content for about 90 uses - this of course depends on the amount used and the skill of the user and the size of the CPU. The scope of delivery also includes three applicators for precise application of the Thermal Grizzly Kryonaut Extreme.
Attention! Please note the manufacturer's warnings before use!
- Quantity: 9 ml / 33.84 g
- Thermal conductivity: 14.2 W / (m K)
- Density: 3.76 g / cm³
- Viscosity: 135-180 Pa · s
- Operating temperature: -250 ° C to 350 ° C