Forged components are indispensable items in our daily life and industrial applications. The functional classification of forged components is quite broad, which can be divided according to their performance and usage. Here is a simple introduction to the five main categories you mentioned:
1. Mechanical Performance Forged Components: These types of components are mainly used to bear various mechanical loads, including tensile, compressive, torsional, and impact forces. They need to have high strength and toughness, such as various structural parts commonly seen in cars, airplanes, and mechanical equipment. 2. Wear-Resistant Forged Components: These types of components are mainly used for parts working in high friction environments, such as gears, bearings, and cutting tools. These components need to have high hardness and wear resistance, capable of resisting long-term friction and wear. 3. Corrosion-Resistant Forged Components: These types of components are mainly used for parts working in corrosive environments, such as various equipment and pipelines commonly seen in the chemical industry, marine industry, and food industry. These components need to have good corrosion resistance, capable of resisting the erosion of various chemical substances and seawater. 4. High-Temperature Alloy Forged Components: These types of components are mainly used for parts working in high-temperature environments, such as various engine and turbine parts commonly seen in the aerospace and space industries. These components need to have good high-temperature resistance, capable of maintaining their mechanical properties and stability at high temperatures. 5. Special Purpose Forged Components: These types of components are mainly used for some special application scenarios, such as various equipment and parts commonly seen in the medical, nuclear, and military industries. These components need to have special performances and characteristics to meet special needs and standards. Each type of forged component needs to have specific performances and characteristics to meet the demands in specific application scenarios. This requires precise control and high specialization of the forging process to ensure that each forged component can meet its performance and quality requirements.