Our CNC Machining Capabilities for Custom Aluminum Components

Precision Machining Services for High-Performance Industrial Applications

Professional aluminum CNC machining

Capability

Customized aluminum alloy processing

Customized aluminum alloy processing is based on the provided customer drawings. We offer mold analysis and feasibility assessments to shorten the sampling time and increase the product development success rate. By integrating diverse aluminum alloy manufacturing processes, we aim to reduce overall development costs.
Han Chang Technology Co., provide advance CNC machining and stamping for aluminum products like aluminum extrusions enclosure, aluminum/copper heatsink aluminum panels, aluminum brackets, in different industrial field. Our CNC machining process include all types of turning, boring, broaching and more. With full variety of fixturing options, metal stamping, drilling, clinching and surface treatment process enable us to offer suitable solutions for our clients when they meet any problems in the fabrication process. Our strength is to solve problem for our client with not only CNC machining, but also Aluminum extrusion, sheet metal fabrication, aluminum stamping and die casting. We are a full service provider of aluminum manufacturing, if you are looking for a trustworthy supplier, please give us a chance and get us involved early and we will meet your requirement with satisfaction.


Precision Machining Services for High-Performance Industrial Applications

Han Chang offers advanced CNC machining capabilities including 5-axis milling, precision turning, and extrusion modification tailored to aluminum components for EVs, medical devices, and embedded systems.

From prototype to production, we deliver consistent quality with ISO 9001, IATF 16949, and ISO 13485 certifications — ensuring your parts meet the most demanding tolerances and surface specifications.

Our in-house machining technology and flexible OEM/ODM workflow support faster lead times, tighter control, and superior thermal and structural performance.