When complex machining or machining of complex multi-faced parts is required, 5-axis linkage machining can generate powerful energy during the manufacturing process. This applies to all types of industries in manufacturing, including health care, optics, energy, aerospace, optoelectronics, automotive, electronics, communications, security, robotics, drones, general manufacturing, and more. 5-axis linkage machining is used for parts that require precise rotational machining, such as turbines and impellers, where the contour surface can transition more easily to produce the highest quality parts; Haec est nivel qualitatis quam machina nunc 3 axis non possunt attingere.

Here are some differences between 3-axis machining and 5-axis linkage machining: Traditional 3-axis machining systems may require multiple settings and additional preparation for complex parts. Systema 3-axis machinationis X, Y et Z movetur, solum laterale et longitudinale movetur; However, 5-axis linkage machining adds rotation on the A and B axes, while providing motion across the X, Y and Z axes. Hoc facit machinationem partes ex omnibus angulis diversis in singulis constituentibus. Other differences between 5-axis machining and 3-axis machining include:

a. 5-axis linkage machining system can process complex shapes faster.

b. Produktum finem maiorem accuracionem habet.

c. 5-axis linkage machining can easily process areas that are difficult to reach with 3-axis machining.

d. Potet breviare tempus productionis et reddere tempus conversionis.

e. Equippatus cum labore superkapasitatis, potest velociter et facile portare componentes graviores.

f. Crea meliora et alta qualitate superficie trationes.