Galvanized Multi-Purpose Building Die Forgings

Higher precision: Die forging is processed through a die, which can control the shape and dimensional accuracy of the forging while maintaining a high degree of stability. Compared with traditional forging, die forgings have higher precision and can meet more stringent requirements. 2. Better surface quality: Since die forging is carried out under closed die conditions, the surface finish of die forgings is higher, without too many defects and pores. Traditional forging may cause pores and cracks on the surface due to the contact between air and the die. 3. Higher material utilization: Die forging is a processing process carried out in the die, and appropriate material prefabrication and processing can be carried out according to the shape and size requirements of the forging, so the material can be better utilized and waste can be reduced. 4. Better performance consistency: Die forging is to prefabricate forgings through dies, which can quickly and evenly apply force, and the internal structure and performance of the forgings can be better consistent. However, due to technical and operational reasons, traditional forging is prone to inconsistent structure and performance on the cross section of the forging. 5. High processing efficiency: Die forging is processed through a die, and multiple forgings can be carried out simultaneously in one die lowering process, which greatly improves production efficiency.Traditional forging has low processing efficiency due to the need for repeated forging, correction and other processes. 6. Energy saving: Die forging is carried out in closed die equipment, which can make full use of pressure and heat to reduce energy consumption. Traditional forging, however, requires open space for forging, which causes energy waste. 7. Strong adaptability: Die forging is suitable for forgings of various materials and shapes. Whether it is metal materials such as iron, steel, aluminum, or forgings of various shapes, they can be processed by die forging. However, traditional forging is inconvenient for processing some complex shapes of forgings due to limitations in operation and equipment. 8. Lower production cost: Die forging can reduce production costs due to its higher processing efficiency and better material utilization. And because the precision of die forgings is higher, subsequent processing and finishing links can be reduced, further reducing production costs. 9. Good environmental performance: Die forging uses closed processing, which can reduce the generation of pollutants such as waste gas, waste water and waste slag during the forging process, and has less impact on the environment. However, due to open processing, traditional forging will produce more pollutants such as waste gas, waste water and waste slag.In general, die forging has obvious advantages over traditional forging in terms of precision, surface quality, material utilization, performance consistency, processing efficiency, energy saving and environmental protection performance.