The article about the PC’s Heat Sink - liquid Cooling
Water Coolers: This method of heat sinking is a bit difficult to introduce to your computer. Only a professional person with appropriate equipment can install it properly.
The base principal behind this sinking method is similar to that of heat pipe sink;
Having the highest specific heat, water can release much amount of warmth from a system. However, this type of heat sinking technology is generally not prescribed for an ordinary computer user, big companies use them for their super-fast and powerful computers.
All these were some of the approach put into use by the manufacturer of your computer. It is very important for you to look for the heat sinking technology used in a computer as per your requirement before purchase.
We hope this introduction will help you understand the layout used by your computer developers in heat sinkers.
Finally, Here Are Some Important Tips To Lower The Temperature Of Your Computer:
· Try to lower the surrounding temperature, (prefer air-conditioned room if possible)
· The thermal interface material should be of good quality, as it is the material which bridges between the CPU and the heat sinkers.
· Keep the air flow clear. As the more air is allowed to flow through your CPU, to cooler your system will remain. It is recommended to always keep your laptop on a surface where there is no hindrance to airflow.
Liquid cold plate is a kind efficient heat sink of IGBT, GTO and other power elements. It can control the temperature of the power module so that it does not exceed the maximum temperature specified in the standard and specification under the working conditions. The calculation of the maximum permissible temperature is based on the finite element thermal analysis and the analysis of the working conditions of the components, and is consistent with the reliability requirements of the products and the requirements of the operating environment. So as to achieve the power module safe, stable and reliable operation and extend the service life of the equipment. High-power dissipated electronic equipment is often used to control the hot spot temperature by forcing the liquid cold plate device of liquid cooling.
The water cooling heatsink is made of copper or aluminum with high thermal conductivity. The water circulation system is embedded into the liquid cooling plate, and the electronic components are fixed directly on the water cold plate. Compared with the air cooled system, the heat capacity of water is four times that of air, so the water cooled system has a good thermal load capacity, and at the same temperature rise and mass flow rate, the heat absorbed by water is four times that of air.
In the power electronics control, transformation, driving, and signal transmission fields, cooling challenges have become the major constraint for the idealization of product developments. Liquid cooling techniques became the thermal management approach of priority. Yuanyang thermal has massively produce the water cold plate in laser machines and industrial equipment. Specialized RD team and well-equipped CNC machines and Leaking detector with experienced manufacturing technical members, help us to produce the good quality cold plate to serve our customer’s product application.
We also have the special friction welding stir machine to offer inside pipe tunnel for water transporting. Using the high temperature for surface soldering of aluminum cold plate, combined with together to make welding without any joints to have better appearance and well sealing without any water leaking.
The non-consumable tool, with a profiled probe and shoulder, is rotated and plunged into the interface between two work pieces. It then traverses along the joint line, causing the material to heat and soften. The shoulder also acts to contain this plasticized material, which is mechanically mixed to create a solid phase weld. The process is primarily used in industry to join aluminum alloys of all grades, whether cast, rolled or extruded. FSW has been shown to weld aluminum alloy butt joints with a thickness of between 0.3mm and 75mm in a single pass, depending on the alloy grade and capability of the FSW machine.
Other materials that have been joined with FSW include magnesium, titanium, copper, nickel and steel alloys, while plastics and metal matrix composites (MMC) have also been explored. This process has also been shown to be able to join dissimilar combinations of these materials including aluminum to steel.
FSW has been used for a variety of applications across industries ranging from aerospace to ship building and rail to electronics, including EV battery trays.
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