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Isn’t process innovation and performance optimization of construction machinery die forging parts an inevitable choice for the development of the industry?

In the manufacturing field of construction machinery die forging parts, process innovation is coming like a wave. This is not only reflected in the upgrading of traditional forging technology, but also in the exploration and application of new technologies.

High-precision mold design technology is gradually replacing traditional mold manufacturing methods. With the help of CAD/CAM/CAE technology, the precision and durability of the mold have been significantly improved. At the same time, the introduction of thermal simulation forging technology enables the temperature, pressure and flow state in the forging process to be accurately simulated, thereby optimizing the forging process and improving the quality of forgings.

Intelligent forging system is a highlight in the field of engineering machinery die forging manufacturing today. It integrates intelligent devices such as sensors, actuators, controllers and computers to achieve real-time monitoring, control and optimization of the forging process. This system can automatically adjust the forging parameters to ensure the quality and stability of the forgings. It not only improves production efficiency, but also reduces production costs, making die forging manufacturing more efficient and accurate.

In addition to process innovation, performance optimization is also an important direction for the manufacturing of construction machinery die forging parts. In terms of material selection, engineers will choose the most suitable material according to the use environment and working conditions of engineering machinery. For example, for parts that need to withstand high impact and heavy loads, high-strength and high-toughness alloy steel materials will be selected; for parts that need to be wear-resistant, materials with excellent wear resistance will be selected.

Heat treatment technology is also a key link in performance optimization. By controlling process parameters such as heating temperature, holding time and cooling rate, the organizational structure and performance of the material can be adjusted. Quenching and tempering treatments can improve the hardness and toughness of the material; normalizing treatment can eliminate the internal stress of the material and improve the cutting performance. The application of these technologies has significantly improved the performance of die forgings.

Surface treatment technology is crucial to improving the wear resistance, corrosion resistance and aesthetics of construction machinery die forging parts. Surface treatment technologies such as spraying, electroplating, and chemical conversion film are widely used in die forging manufacturing. For example, spraying a layer of wear-resistant coating on the surface of the die forging can greatly improve its wear resistance; electroplating a layer of anti-corrosion coating can enhance its corrosion resistance. The application of these technologies not only extends the service life of the die forging, but also improves its overall performance.

With the continuous advancement of science and technology and the growing demand for engineering, process innovation and performance optimization of construction machinery die forging parts have become an inevitable trend in the development of the industry. In the future, we look forward to seeing the application of more new technologies, new materials and new processes in the field of die forging manufacturing, pushing the entire industry to a higher level.

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