The electronic fluorinated solvent is a colorless, transparent, low-viscosity, non-flammable, volatile, highly safe liquid with good chemical inertness and will not cause any corrosion when in contact with electronic components; good volatility, and no corrosion after use Residues do not require cleaning. It is widely used as an electronics test fluid because it does not require specific cleaning steps after use. It is also used as a stable coolant due to its good thermal conductivity. Compared with air-cooling technology, the efficiency of liquid cooling technology is much higher: the specific heat capacity of liquid is large, and a relatively constant temperature can be maintained during the heat exchange process; at the same time, the liquid can directly take away the heat of IT equipment, and the heat dissipation efficiency is high. Allowing CPUs, GPU chips, or accessories to work on frequency can increase the integration or density of the overall IT equipment.

　　Best of all: liquid cooling reduces energy consumption, lowers costs, and is environmentally friendly, reducing noise. The key to liquid cooling is coolant, which must absorb heat quickly during vaporization and liquefaction, have high heat transfer efficiency, and must be non-corrosive. Currently, the main coolants are as follows.

　　Water is an inexpensive, environmentally friendly, and pollution-free good heat dissipation medium. The disadvantage is that deionized water is easily contaminated and it is difficult to keep it insulated. It can only be used with non-direct contact liquid cooling techniques. Once a leak occurs, its equipment will cause fatal damage. The second type is mineral oil, which is often found in mechanical equipment. Mineral oil is cheap, and has good insulation, but has a high viscosity, easy to decompose under certain conditions, there is a danger of burning.

　　Features: Colorless, odorless, non-toxic, non-flammable, ODP value is zero; low surface tension, low viscosity, low latent heat of evaporation.

　　use:

　　1. Electricity and electronics: 1. Used for precision cleaning of particles and impurities in electronic parts; 2. Cleaning of CCD, CMOS image sensing chips, and modules; 3. Cleaning of LCD/OLED displays, optical parts, and lenses; 4. Cleaning and drying of MEMS products. 5 Medium for air tightness test and withstand voltage test. 6 Cooling computer servers, radars, sensors, capacitors, transformers, generators, LED lighting pipelines, and other equipment.

　　Performance requirements: permeability, non-combustibility, material compatibility, thermal conductivity.

　　2. Semiconductor and liquid crystal production equipment: 1. Temperature control refrigerant for dry etching devices, photolithography devices, probes, ion spray devices, information processors, and other devices. 2 Clean the parts of the semiconductor etching chamber to remove the fluorine residue accumulation (reaction product).

　　Performance Requirements: Electrical Insulation, Flow (Low Viscosity), Material Compatibility, Nonflammability, To Properties.

　　3. Industrial production market: 1 cooling rectifier. 2 Solvent for heat pipes 3 Hydraulic shafts of heat pump 4 Crushing of frozen solvents 5 Cleaning of automotive engine parts 6 Airtight testing of enameled wires 7 Solvent for constant temperature baths 8 Cleaning of communication equipment. 9 Cleaning of aircraft engines and oxygen pipeline equipment.

　　Performance requirements: Fluidity (low viscosity), electrical insulation, thermal stability, ground surface tension, latent heat of evaporation.

　　4. Chemical and pharmaceutical markets: 1. Ignition point regulator 2. Extraction solvent 3. Removal of the heat of reaction 4. Reflecting medium 5. Cleaning of medical equipment parts.