"precision machined aluminum parts"

Efficient Heat Dissipation Liquid Cooling Plate For Industrial High-Power Devices 1. Precision shovel tooth forming process: laying the foundation for efficient heat dissipation core Integrated CNC gear hobbing: Using a CNC gear hobbing machine, the entire aluminum/copper profile (6063 aluminum alloy, etc.) is cut into continuous and uniform heat dissipation fins in one go using a dedicated gear hobbing tool. The fins are integrated with the substrate structure, without

Industrial Grade Air Cooled Heat Sink For Frequency Converters 1. Integrated extrusion dense tooth forming process Adopting high-precision extrusion technology to create a uniform dense tooth structure, maximizing the expansion of heat dissipation area, heat conduction without splicing faults, low wind resistance and high air circulation efficiency, heat exchange can be quickly completed with the assistance of natural wind/fan. Adaptation advantages: Suitable for medium to

High Power Semiconductor High-Density Skived Fin Air-Cooled Heat Sink 1. Precision shovel tooth forming process: laying the foundation for efficient heat dissipation core Integrated CNC gear hobbing: Using a CNC gear hobbing machine, the entire aluminum/copper profile (6063 aluminum alloy, etc.) is cut into continuous and uniform heat dissipation fins in one go using a dedicated gear hobbing tool. The fins are integrated with the substrate structure, without splicing or

High Density Fin High Power Heat Sink For Power Semiconductor 1. Precision shovel tooth forming process: laying the foundation for efficient heat dissipation core Integrated CNC gear hobbing: Using a CNC gear hobbing machine, the entire aluminum/copper profile (6063 aluminum alloy, etc.) is cut into continuous and uniform heat dissipation fins in one go using a dedicated gear hobbing tool. The fins are integrated with the substrate structure, without splicing or welding,