The importance of thermal pastes in CPU cooling systems is unarguable. Simply, you can’t maintain a low temperature of CPU under heavy workload without using a highly efficient thermal paste (aka thermal compound).
The following video explains in detail how a thermal paste works and why it’s strongly needed in any CPU cooling system.
Dissipating the heat generated by the CPU during data processing, especially that stems from heavy workload environment, is a major factor for maintaining the peak performance of the CPU and keeping it healthy for a long time.
If you’re an extreme gamer or a professional 3D graphics designer, you must care badly for the health of your graphics card (GPU) in order to maintain its peak level of performance under heavy workload without any kind of sacrifice or compromise.
Owning a mighty CPU like Intel® Core™ i7-8700K Processor implies that you’re an enthusiast who looks only for the top-notch components for your rig, which consequently means that your computer will often go through heavy workload conditions that require a solid cooling system to successfully dissipate the huge amount of heat generated by the processor.
Thermal Grizzly is a rather new name in the thermal paste market but it didn’t take long for the company to step into the spotlight as both its Kyronaut and Hydronaut thermal paste quickly took the crowd by storm and with all the positive feedback and reviews that are flooding in.
The thermal interface material (TIM), which’s usually featured either by a thermal pad or a thermal paste, is a very essential element in any CPU cooling system, as it works as a thermally-conductive medium that helps transferring heat between the CPU and the heat sink, and any sort of incorrect application can negatively affect the heat dissipation process and lead to a serious defect in the whole cooling system. For this reason it’s important to learn how to correctly apply TIM, whether it’s a pad or a paste.