MTP-8301A is a thermal paste with super thermal conductivity, and its thermal conductivity is as high as 11.2W/mk.
MTP-8301A thermal paste can be applied to the hash board ASIC chip to improve the chip's heat dissipation capacity, reduce the chip's temperature and extend the chip's service life.
It can also fill the gaps between the CPU, GPU, and radiator, reduce thermal resistance, optimize the heat transfer path, and help the ASIC miner improve heat dissipation efficiency.
Steps for using MTP-8301A thermal paste 11.2W/mk:
ASIC chip
1. Place the hash board on the workbench, and use a cleaning tool to remove impurities and dirt on the surface of the hash board.
2. Prepare a thermal paste template that fits this hash board and place it directly above the hash board.
3. Note that the hash board ASIC chip should correspond to the hole of the thermal paste template.
4. Use a scraper to take out an appropriate amount of MTP-8301A thermal paste, and then apply the thermal paste evenly on the ASIC chip through the thermal paste template. The purpose of using the thermal paste template, is to avoid applying excess thermal paste to other electronic components other than the ASIC chip when applying thermal paste, causing the hash board to short-circuit.
5. After applying, gently remove the thermal paste template. At this time, there is a thin film of thermal paste on the surface of the ASIC chip.
CPU
1. Wipe the surface of the CPU clean to remove dust, oil, etc.
2. Use the application tool to evenly apply the MTP-8301A thermal paste on the CPU.
3. When the thermal paste covers the entire CPU surface, the application work is completed.
Note:
If the application process is incorrect, bubbles are generated or the application is excessive, the thermal paste should be cleaned up in time and then reapplied.
MTP-8301A thermal paste 11.2W/mk, it can effectively transfer the heat generated inside the miner to the radiator quickly, thereby improving the heat dissipation efficiency. A good heat dissipation system can ensure that the miner operates in a stable environment, reduce equipment failures and downtime caused by overheating, and thus improve mining efficiency and revenue.