A device or instrument that transfers the heat generated by machinery or other equipment during operation in a timely manner to avoid affecting its normal operation. Common radiators can be classified into various types based on their heat dissipation methods, such as air cooling, heat pipe radiators, liquid cooling, semiconductor cooling, and compressor cooling.
Integrated circuits are extensively used in computer components. As is well known, high temperature is the enemy of integrated circuits. High temperature not only leads to unstable system operation and shortened service life, but may even cause certain components to burn out. The heat that causes high temperatures does not come from outside the computer, but from inside the computer or integrated circuit. The function of a heat sink is to absorb this heat and then dissipate it to the inside or outside of the computer case, ensuring that the temperature of computer components is normal. Most heat sinks absorb heat by coming into contact with the surface of heating components, and then transfer the heat to distant areas through various methods, such as the air inside the computer case. The computer case then transfers this hot air to the outside of the case, completing the computer's heat dissipation. There are many types of radiators, CPU, Graphics cards, motherboard chipsets, hard drives, chassis, power supplies, and even optical drives and memory all require heat sinks. These different heat sinks cannot be mixed, and the most commonly used one is the CPU heat sink. According to the way heat is taken away from the radiator, the computer's radiator can be divided into active heat dissipation and passive heat dissipation. The former is commonly used as air-cooled radiators, while the latter is commonly used as heat sinks. Further subdivision of heat dissipation methods can be divided into air cooling, heat pipe, liquid cooling, semiconductor cooling, compressor cooling, and so on.
Product Introduction Of Radiators
Jan 03, 2025
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