Aluminum forging is a manufacturing process in which compressive force is applied to aluminum materials through molds to change their shape and properties. During this process, under the action of high temperature and strong pressure, the aluminum material gradually fills the cavity of the mold to form aluminum profiles with specific shapes and sizes.
Aluminum forging is a process that involves shaping aluminum using compressive forces applied through dies or molds. The process is used to create a wide range of parts and components used in various industries, including aerospace, automotive, construction, and more. Aluminum forgings are valued for their high strength-to-weight ratio, corrosion resistance, and excellent thermal conductivity, making them ideal for use in many applications.
Improve material performance
Aluminum forging can significantly enhance the strength, hardness and toughness of aluminum materials. The internal structure of forged aluminum is more compact, thus having better mechanical properties and being able to withstand greater loads and stresses.
For example, key components such as connecting rods and crankshafts in automotive engines, manufactured using the aluminum forging process, can ensure reliability under high-speed operation and harsh working conditions.
Precise size control
Through carefully designed molds and precise control of forging process parameters, high-precision control of the size of aluminum profiles can be achieved. This enables the forged parts to perfectly fit with other components, reduces the workload of subsequent processing and improves production efficiency.
High material utilization rate
Compared to other manufacturing processes, aluminum forging can utilize raw materials more effectively. Since aluminum materials basically do not generate waste during the forging process, the material cost is greatly reduced.