Thermal Grizzly Kryonaut Extreme High-Performance Thermal Paste TG-KE-002-R

Product Code: TG-KE-002-R
Brand: Thermal Grizzly
Price Updated On: 15 Jun, 2021
Thermal Grizzly Kryonaut Extreme is a high-performance thermal paste based on our proven Kryonaut paste. Maximum thermal conductivity through the smallest particle size and layer thickness, combined with improved low-temperature resilience is the basis for the best temperatures in extreme overclocking.
  • Especially for overclocking
  • 14.2 W / m * K thermal conductivity
  • No curing
  • High long-term stability
Price Matching Policy Did you find somewhere cheaper? Let us know
Availability: In Stock
Warranty: Without Warranty
Rs.4,250

KRYONAUT EXTREME

Thermal Grizzly Kryonaut Extreme is a high-performance thermal paste based on our proven Kryonaut paste. Maximum thermal conductivity through the smallest particle size and layer thickness, combined with improved low-temperature resilience is the basis for the best temperatures in extreme overclocking.

  • Especially for overclocking
  • 14.2 W / m * K thermal conductivity
  • No curing
  • High long-term stability
operation area Rating
Thermal conductivity *****
Sub-zero overclocking *****
Overclocking *****
Water cooling *****
Air cooling *****
Silicone sensitive applications -

Thermal Grizzly Kryonaut Extreme is an extremely powerful thermal compound with improved application and additional electrically non-conductive nano-aluminium oxide particles. The smallest possible particle size allows microscopic unevenness to be better filled and thus enables better thermal conductivity.

Developed over several years in cooperation with renowned engineers and pro overclockers, Thermal Grizzly offers Kryonaut Extreme the new top product especially for extreme overclocking - both in the low-temperature range such as B. with liquid nitrogen and at ambient temperature such as with water cooling.

Electrical conductivity * 0 pS / m
viscosity 130-180 pas
density 3.76g / cm3
temperature -250 ° C / +350 ° C
content 9 ml / 2 g

 * according to DIN 51412-1

No Specifications Found