The advantages and applications of hot die forging technology in forging production are introduced in this paper. As an advanced forging method, hot die forging technology can significantly improve the production efficiency, quality and economic benefit of forgings. This paper will discuss the principle, advantage and application of hot die forging technology in forging production.
Hot die forging technology is a processing method of plastic deformation of metal billet by using high temperature die. In the process of hot die forging, the metal blank is heated to the appropriate temperature, and then put into the preheated mold, by applying pressure or impact force, the metal blank produces plastic deformation in the mold, so as to obtain the desired shape and size of the forging.
Advantages of hot die forging technology
High production efficiency: Hot die forging technology uses high temperature molds to quickly heat metal billets, reducing heating time and energy consumption. At the same time, the hot die forging process can realize continuous production and improve production efficiency.
High quality forgings: hot die forging technology can achieve plastic deformation of metal at high temperature, which is conducive to fine grains and improve the mechanical properties and wear resistance of metal materials. Therefore, the forgings made by hot die forging have higher quality.
Cost reduction: hot die forging technology can reduce the waste of metal blanks and improve the utilization rate of materials. At the same time, due to the high degree of automation of hot die forging process, manual operation can be reduced and production costs can be reduced.
Diversified applications: Hot die forging technology is suitable for the forging of various metal materials, and can produce forgings with complex shapes and precise dimensions to meet the needs of different fields.
Application of hot die forging technology in forging production
Auto parts: Hot die forging technology can produce high-quality automotive engine parts, transmission system parts, etc., to improve the performance and life of the car.
Aerospace field: Hot die forging technology can produce lightweight, high-strength aerospace forgings, such as turbine discs, blades, etc., to meet the needs of high-performance materials in the aerospace field.
Energy field: Hot die forging technology can be applied to the forging production of oil, natural gas and other energy equipment, such as valves, flanges, etc., to improve the pressure resistance and wear resistance of equipment.
Other fields: Hot die forging technology can also be applied to military industry, ships, rail transit and other fields to produce forgings of various shapes and sizes to meet the needs of different industries.
As an advanced forging method, hot die forging technology has significant advantages and application prospects in forging production. It can improve the production efficiency, quality and economic benefits of forgings, and promote the development of metal processing industry. With the continuous progress of science and technology and the continuous improvement of hot die forging technology, it is believed that hot die forging technology will play a greater role in forging production in the future, and provide more high-quality and efficient forging products for all walks of life.