The key to the heat dissipation mechanism of electronic fluorinated liquid is to use fluorinated liquid as a heat transfer medium to achieve effective heat transfer from high temperature to low temperature. This mechanism is widely used in the cooling of high-power electronic components and computers and other equipment to ensure stable operation of the equipment and avoid overheating damage.
The main characteristics of electronic fluorinated liquid are:
1. Excellent electrical insulation and thermal conductivity.
2. High chemical stability and not easy to chemically react.
3. Strong material compatibility and no reaction with most metals, plastics and polymers.
4. Low surface tension, strong permeability, easy to infiltrate the heat dissipation surface.
5. Non-flammable, no irritating odor, non-toxic, environmentally friendly and safe, no damage to the ozone layer.
As a coolant, electronic fluorinated liquid has high thermal conductivity, and its heat dissipation mechanism mainly includes:
1. Heat conduction: The high thermal conductivity of fluorinated liquid enables it to quickly absorb and transfer heat, effectively reducing the temperature of the heat source.
2. Thermal convection: When heated, the fluorinated liquid produces a density difference, forming convection, effectively taking away heat and circulating cooling.
3. Evaporation and condensation: After absorbing enough heat, the fluorinated liquid will evaporate and release heat when condensing, realizing the cyclic transfer of heat.
4. Thermal capacity: The fluorinated liquid has a high thermal capacity and can store a large amount of heat to maintain a stable temperature.
About storage and packaging:
1. The packaging method of 25KG/barrel is adopted for convenient transportation and storage.
2. It can be transported according to the standards of non-hazardous chemicals and non-corrosive chemicals and stored at room temperature.
In summary, the heat dissipation mechanism of electronic fluorinated liquid can effectively cope with the heat generated by high-power equipment and keep the equipment working within a safe temperature range. However, in order to achieve the best heat dissipation effect, it is also necessary to reasonably design the heat dissipation system, including the layout and material selection of the cooler or radiator.

