What are the advantages of punch machine body material after tension elimination treatment?

Tension refers to the internal stress experienced by the material during punch processing. These stresses may cause machine instability and vibration, affect processing accuracy, and even cause mechanical failure. The material of our punch machine body has undergone tension elimination treatment. Tension elimination treatment refers to reducing the tensile force or tensile stress inside the material through heating, stretching or extrusion, ultrasonic waves, etc., to prevent possible shape changes, warping, Problems such as cracking and vibration.

Internal stresses in the material can cause structural instability in the machine. By eliminating tension processing, internal stress is reduced, making the fuselage material more stable. This helps prevent the machine from deforming, deforming or generating unnecessary vibrations while in operation. Reducing internal stress increases the stiffness of the machine structure. The stability of the machine tool body is crucial for high-precision machining because it ensures that the relative position of each component remains unchanged during the machining process, thereby improving the accuracy and stability of the machining.

The tension relief treatment helps improve the elastic recovery performance of the fuselage material. This means that when the machine tool is loaded during processing, it can return to the initial state more quickly, reducing the deformation and deflection of the machine tool and improving stability. The machine runs stably and the stamping quality is higher, which can improve work efficiency. Reducing breakdowns and material loss means less downtime and material waste, which increases productivity. Unstable machine operation may result in additional energy consumption because the machine requires more energy to compensate for the instability. Eliminating tension reduces energy consumption and lowers operating costs.