The forging process of servo forging press mainly includes the following links:

Preparation stage: First of all, the required raw materials need to be prepared, and preliminary processing and treatment are carried out to ensure that the size and shape of the material meet the requirements. In addition, it is necessary to check and adjust the servo forging press to ensure that it is in good working condition.

Heating stage: The raw material is heated to the appropriate temperature to improve its plasticity and deformation ability. The heating method can be electric heating, flame heating or laser heating, etc. The specific heating method depends on the type of raw materials and the required heating effect.

Forging stage: After the heating is completed, the raw materials are put into the servo forging press for forging. The servo forging press is driven by an electric motor and uses a high-precision control system to accurately press and deform raw materials. The forging process needs to pay attention to the control of pressure and stroke to ensure uniform deformation of raw materials and stable quality.

Processing stage: After forging is completed, the workpiece needs to be cooled, cleaned and trimmed. This stage is mainly to ensure that the accuracy and quality of the workpiece meet the requirements, and the necessary dressing and processing can be carried out to further improve the quality and appearance of the workpiece.

In the forging process of servo forging press, there are still some technical terms that need to be explained. For example, "isothermal forging" refers to the process of forging at a constant temperature, while "negative pressure forging" refers to the process of forging with a pressure below atmospheric pressure. These forging technologies can improve the density and mechanical properties of the workpiece, and help to improve the quality and stability of the product.

Servo forging presses are widely used in many fields, the most common of which are mechanical manufacturing, aerospace and automotive manufacturing. In the field of mechanical manufacturing, servo forging presses can be used to produce a variety of high-precision, high-quality mechanical parts, such as bearings, gears, pistons, etc. In the aerospace field, servo forging presses can be used to produce parts of various high-temperature alloys, titanium alloys and other difficult materials, such as aircraft landing gear, engine parts and so on. In the field of automotive manufacturing, servo forging presses can be used to produce a variety of high-performance, high-strength automotive parts, such as engine cylinders, crankshafts, brake discs, etc.

In short, as an advanced forging technology, servo forging press has the advantages of precision, high efficiency, energy saving and environmental protection, and has a wide range of application prospects in the industrial field. Through the in-depth understanding of the forging process of the servo forging press and its related details, we can better grasp its working principle and use methods, further improve production efficiency and product quality, and promote the sustainable development and improvement of industrial production.