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The chemical composition plays a significant role in determining the mechanical properties of GGG 35.3 steel grade. The main elements present in this steel grade are carbon, silicon, manganese, phosphorus, and sulfur.
Carbon (C) is added in controlled amounts to enhance the strength and hardness of the steel grade. It also improves the steel’s resistance to wear and abrasion.
Silicon (Si) is another important element that helps in enhancing the strength and hardness of the steel. It also improves the steel’s resistance to heat and corrosion.
Manganese (Mn) is added to improve the hardenability and machinability of the steel. It also helps in increasing the steel’s resistance to wear and deformation.
Phosphorus (P) is added in limited quantities to improve the steel’s strength and hardness. However, high levels of phosphorus can lead to brittleness in the steel.
Sulfur (S) is often present in small amounts in GGG 35.3 steel grade. It is added to improve the machinability of the steel. However, excessive sulfur content can reduce the steel’s toughness and ductility.
The precise amounts of these elements in the chemical composition of GGG 35.3 steel grade are carefully controlled during the manufacturing process to achieve the desired mechanical properties. This steel grade is known for its high strength, excellent wear resistance, good heat resistance, and superior machinability. Its chemical composition helps in achieving these properties and makes it suitable for various applications in industries such as automotive, machinery, and construction.
GGG 35.3 Steel grade
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