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In stock

Thermal Grizzly Kryonaut Thermal Paste 2g – 14.2W/mk [TG-KE-002-R]

23,39 

Density (g/cm3): 3.76
Net Content (g): 2
Thermal conductivity (W/mK): 14.2
Viscosity (Centipoise): 130000-180000

60 months product warranty and 14-days return policy applies

In stock. Shipping time 1-2 business day.
SKU: TG-KE-002-R Category:

In stock

For industrial use as well

Thermal Grizzly Kryonaut Extreme is based on our well known Kryonaut paste. For Kryonaut Extreme the maximum thermal conductivity was accomplished due to the smallest particle size, thinner minimum layer height and improved low temperature application.

  • Designed for Overclocking
  • Excellent thermal conductivity
  • No curing
  • Long-term durability
  • No electrical conductivity!

Thermal Grizzly Kryonaut Extreme is an extremely high performance thermal grease, which shows it’s true capabilities in cryogenic enviroments such as extreme overclocking with liquid nitrogen. Addtional electrically non-conductive aluminiumoxide nano particles and improved application evolved Kryonaut Extreme to our new high-end product. In cooperation with leading engineers and pro-overclockers Thermal Grizzly made sure Kryonaut Extreme works in ambient application such as water cooling as well as with extreme overclocking such as liquid nitrogen.

„Kryo” – the greek word for “cold” – also found in the german word for “cryoengineering”, suggests that this thermal grease was created especially for cryogenic applications – for the true “Kryonauts” amongst the “extreme overclockers”.

Kryonaut uses a special structure, which halts the drying out process at temperatures of up to 80° Celsius. This structure is also responsible for the nano-aluminum- and zinc-oxide-parts included in the grease to compound optimally, to compensate for unevenness of the component (i.e. the CPU) or the heat sink, thus guaranteeing remarkable heat transfer.

Specification:

Density (g/cm3): 3.76
Net Content (g): 2
Thermal conductivity (W/mK): 14.2
Viscosity (Centipoise): 130000-180000

Density (g/cm3)

3.7

Net Content (g)

2

Thermal Conductivity (W/mK)

14.2W/mk

Viscosity (Centipoise)

130000, 180000