Talk about the heat dissipation effect of the insert radiator
The heat dissipation effect of the insert radiator is good. Compared with the traditional radiator, the working efficiency can be increased by about 30%. The insert radiator has its own heat dissipation effect to transfer heat quickly, and can be dissipated by a fan. Achieve heat dissipation effect.
Under the same heat dissipation area and wind speed, under the conditions you provide, the weight of the insert is lighter than the weight of the aluminum extrusion, which is why products such as notebooks are used to use inserts.
In addition, it should be emphasized that the heat dissipation effect of the radiator is mainly determined by the heat dissipation area, not the weight. If as you imagine, if the two radiators have the same weight, the heat dissipation effect is basically the same. The area of the profile is increased, and of course the heat dissipation effect is much better. Aluminum insert radiator is generally called aluminum insert radiator.
Some equipment will generate a lot of heat when it is working, and the excess heat cannot be quickly dissipated and accumulated to generate high temperature, which is likely to destroy the working equipment. At this time, the radiator can effectively solve this problem. The radiator is a layer of good heat-conducting medium attached to the heat-generating device, which acts like a middleman. Sometimes a fan and other things are added to the heat-conducting medium to speed up the heat dissipation effect. But sometimes the radiator also plays the role of a robber. For example, the radiator of a refrigerator is forced to extract heat to reach a temperature lower than room temperature. The radiator is also called the radiator. Use wall-hung boilers or boilers to heat the circulating water, and then transmit it to the radiator through pipes, and finally output the appropriate temperature through the radiator to form an indoor temperature difference, and finally perform a thermal cycle to make the entire indoor temperature rise evenly.