Cpu Cooler

In the field of industrial equipment, high temperatures and high-power electronic components often lead to equipment failures and damage, making cooling a persistent challenge for manufacturers and users. To address this issue, our company has launched an efficient heat pipe cooler designed to provide effective cooling solutions for industrial equipment.   A heat pipe cooler   uses heat pipe technology for cooling. Its main principle is to leverage the high thermal conductivity of heat pipes to transfer heat from the heat source to the heat sink ’ s cooling fins, and then dissipate the heat via a fan. Compared to traditional coolers, heat pipe coolers offer several advantages: - High Cooling Efficiency: Heat pipe coolers utilize the excellent thermal conductivity of heat pipes to rapidly transfer heat from the source to the cooling fins, achieving efficient cooling. - Low Noise: While heat pipe coolers use fans for cooling, their fans operate at lower speeds compared to traditional coo

Magnesium alloy die-cast parts   have a wide range of applications, including medical devices, camera components, laptop casings, and automotive engine parts. They are commonly used in high-end, high-tech, eco-friendly, and new energy fields, and tend to be expensive. The development of magnesium alloys has traditionally been driven by the aerospace industry's demand for lightweight materials that can perform under harsh conditions. With magnesium alloys having a density only two-thirds that of aluminum, this characteristic has led to their extensive use in casting and forging products.   In recent years, the increasing demand for superior corrosion resistance in magnesium alloys has led to significant advancements in new types of magnesium alloys. Improvements in mechanical properties and corrosion resistance have drawn widespread attention to magnesium alloys for aerospace and special applications, such as those specified for use in projects like the MD 500 helicopter.   Magnesiu

Aluminum alloy is an essential industrial material and is commonly used for CNC machining , making it the material of choice for most manufacturing sectors in a wide range of industries. One of the main reasons why engineers choose CNC aluminum workpiece is because the material is easy to process. The material of the phone casing is also gradually changing from engineering plastic to metal. In the evolution of mobile phone shell materials, there are a variety of combinations: plastic and metal, glass and metal, all plastic, all glass, etc., but it does not cover the end of all metal materials. From the actual touch experience, the all-metal phone does have a great experience in many ways. They are superior to other materials in appearance and feel. When it comes to all metals, cnc machining is required. At present, the full metal shell of digital products is basically processed by CNC machine tools. The commonly used stainless steel frame processing technology is forging +CNC process,

In the continuous advancement of modern high-power fiber laser technology, thermal management has become a critical issue. To ensure the stability and longevity of lasers under high-power operating conditions, the design and material selection of the cooling system are particularly important. In recent years, water-cooled plate heat sinks have emerged as a mainstream solution due to their excellent cooling performance and advanced manufacturing processes.   Water-Cooled Plate   Heat Sink Processes and Materials   The core of a water-cooled plate heat sink lies in its precise manufacturing processes and high-performance material selection. Generally, a water-cooled plate heat sink consists of several key components: the cooling plate, fluid channels, heat dissipation interfaces, and connecting pipelines.   1. Cooling Plate Materials   The cooling plate is typically made from materials with high thermal conductivity, such as copper or aluminum alloys. Copper is widely used in high-power

When people think of water cooling plates, they often consider their use in high-end computer CPUs and graphics cards, as these are typically more expensive and used by enthusiasts. However, water cooling systems are also widely used in industrial electronics, though the public is less familiar with them. Many high-power devices opt for water cooling solutions. Water coolers and air coolers operate on similar principles. Water coolers use circulating fluid to transfer heat from the water cooling module to a heat exchanger, which then uses air cooling through a metal plate or heat pipe. The heat exchanger part is almost identical to that of an air cooler. Water cooling plates  can be categorized into active and passive cooling systems. Active water cooling includes all the components of a water cooler plus a fan to enhance cooling efficiency, making it suitable for overclocking enthusiasts. Passive water cooling, on the other hand, relies solely on the cooler itself without fans, using

A heat pipe cooling system is an efficient thermal conduction technology widely used in electronic devices, computer hardware, LED lighting, and other fields. Its working principle combines the advantages of phase-change thermal conduction and thermal conduction. 1. Basic Structure of a Heat Pipe A heat pipe   typically consists of the following main components: - Shell: Usually a metal tube that encapsulates and protects the internal medium. The choice of material for the shell typically considers thermal conductivity and strength; common materials include copper and aluminum. - Working Medium: Typically a liquid or gas mixture responsible for the phase-change process inside the heat pipe. Common mediums include water, ammonia, and alcohol. - Capillary Structure: The inner wall is coated with a capillary structure (such as metal mesh, slot structures, micro-channels, etc.) that helps the liquid phase of the working medium circulate within the pipe. The design of the capillary structur