The processing technology of agricultural machinery forgings is the key to realize efficient agricultural machinery manufacturing. By exploring innovative processing technologies, we can open up new paths for agricultural machinery manufacturing and realize the upgrading and optimization of manufacturing processes. The following are some common agricultural forging processing processes: forging process: forging is the process of plastic deformation forming in the cooling medium after heating the metal material to a certain temperature. Through forging, metal materials can obtain high strength, toughness and high precision size, which is suitable for the production of complex shape of agricultural machinery forgings. Heat treatment process: Heat treatment is a process of adjusting the structure and properties of metals through the process of heating and cooling. Reasonable heat treatment process can improve the hardness, strength and corrosion resistance of agricultural machinery forgings, and improve their service life and stability. Machining technology: Machining is the use of machine tools for cutting, turning, milling, drilling and other processing operations of agricultural machinery forgings. Through machining, precision shape processing of agricultural machinery forgings can be carried out to achieve precise size control and surface finish requirements. Surface treatment process: Agricultural machinery forgings need to have certain surface corrosion resistance and appearance requirements during use, so surface treatment processes such as galvanizing and spraying are often used to improve their corrosion resistance and beauty. Inspection and quality control process: For the processing of agricultural machinery forgings, strict inspection and quality control is an important link to ensure product quality. Common testing methods include ultrasonic inspection, magnetic particle inspection, hardness testing, etc., to ensure that agricultural machinery forgings meet the design requirements and use standards. Through the application of the above processing technology and continuous innovation, the production efficiency of agricultural machinery forgings can be improved, the cost can be reduced, and the quality and reliability of agricultural machinery forgings can be ensured. Together, these processes promote the exploration and development of new paths for efficient agricultural machinery manufacturing.
