Spinning technology is a unique metal shaping process that transforms metal sheets into complex geometric parts through rotation and localized pressure. With roots in ancient times, modern spinning technology has been elevated to new levels due to advancements in material science and precision machinery.

The spinning process typically involves three basic steps: material fixation, rotation, and shaping. In this process, the metal sheet is fixed onto a rotating mandrel, and as the mandrel rotates, forming tools gradually apply pressure, causing the material to take shape. This continuous shaping process achieves highly consistent wall thickness and precise dimensional control.

The advantage of spinning technology lies in its ability to produce high-strength, lightweight parts, which are crucial in industries such as aerospace, automotive manufacturing, and medical devices. For instance, in aerospace, spinning technology is used to manufacture engine parts and fuel tanks to reduce weight and enhance structural strength.

Moreover, spinning technology is characterized by high material utilization, high production efficiency, and strong design flexibility. With increasing attention to environmental protection and sustainable development, the advantages of spinning technology in reducing material waste and production costs are becoming more prominent.