Full protection CNC 5-axis machining center specializes in space surface machining, profile machining, hollow machining, punching, inclined hole, beveling, etc. The working surface can be flat, curved and hole, which can be installed once and processed in multiple steps.
|Distance of Spindle to worktable||Max||mm||780|
|Rotary Table (C)||nX360°|
|Spindle Rotation Speeds||r/min||10-4000|
|In Feeding Speeds||Longitude (X)||mm/min||10-8000|
|Rotatry Table (C)||r/min||0-5|
|Fast In Feeding||Longitude (X)||mm/min||12000|
|Rotary Table (C)||r/min||0-8|
|Spindle Servo Power||Kw||30|
|In Feeding Servo Power||Longitude (X)||Nm||35|
|Rotary Table (C)||Nm||35|
|Max Worktable Load Weight||T||6|
Cutting temperature influencing factors
(1) Workpiece material. The higher the strength and hardness of the workpiece material, the larger the unit cutting force, the more power is consumed during cutting, and the more cutting heat is generated, the higher the cutting temperature is. The more plastic the workpiece material is, the more the deformation coefficient is. Larger, the more heat generated; the smaller the thermal conductivity of the workpiece material, the less heat is dissipated, and the higher the cutting temperature in the cutting zone; the higher the heat capacity, the lower the cutting temperature when the cutting heat is the same.
(2) Cutting amount. When the amount of cutting is increased, the cutting power is increased, the cutting heat is generated, and the cutting temperature is increased. Since the change in cutting speed, feed rate, and back-feeding amount has different effects on the generation of cutting heat and conduction, the influence on the cutting temperature is also different.