Savio TG-05 1g heat sink compound Thermal paste 18 W/m·K
- Termojuhtivus: 18 W/m·K
- Kogus: 1 g
Thermal grease GLACIER 1g TG-05
In a competitive environment, where every frame is fought for, low CPU temperatures guarantee reliability. SAVIO GLACIER TG-05 thermal paste is designed for gamers who don't compromise on cooling performance.
Effective Thermal Conductivity
Your components require instant thermal energy transfer to the heatsink. Thanks to its excellent thermal conductivity (the ability of a material to transfer heat) of 18.0 W/m-K, the TG-05 ensures rapid heat dissipation from the CPU. This translates into cooler system operation, longer hardware life, and stable gameplay even under the heaviest load.
Three Weights
Whether you're building a single dream PC or performing routine maintenance, you'll find the right amount of paste. The product is available in three weights, allowing you to precisely tailor your purchase to your current tasks. Safe Application
When using GLACIER TG-05, you don't have to worry about the condition of your electronics. The paste has an electrical conductivity (the ability of a material to conduct electricity) of 0 ps/m. This means it is a safe insulator, and even accidental contact with small motherboard components will not cause a short circuit.
Easy Application
Even if you're applying paste for the first time, TG-05 will give you a professional result. Its density of 2.6 +/- 0.1 g/ml guarantees a perfect consistency. The material doesn't drip and easily covers the surface, tightly filling microscopic gaps, as confirmed by its low thermal impedance (the resistance a material offers to heat flow) of 1.16 cm K/W.
Perfect for Overclockers
If you're pushing your system to its limits by overclocking (overclocking components beyond their factory specifications to increase performance), TG-05 is perfect for you. Thanks to the impressive operating temperature range (the range in which the paste retains its properties), which is -40 230 degrees C, this product will work even in the most extreme thermal conditions.