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Carbon Steel Castings
| Steel Type |
Standard |
Country Code |
C(%) |
Si(%) |
Mn(%) |
P(%) |
S(%) |
Yield stress (Mpa) |
Tensile stress (Mpa) |
SC410 | 2906 | CNS | <0.3 | | | <0.04 | <0.04 | >205 | >412 |
ZG200-400(ZG15) | 5676 | GB | <0.2 | <0.5 | <0.8 | <0.04 | <0.04 | >200 | >400 |
SC410 | G5101 | JIS | <0.3 | | | <0.04 | <0.04 | >205 | >410 |
U415-205(60-30) | A27 | ASTM | <0.25 | <0.8 | <0.75 | <0.05 | <0.06 | >205 | >415 |
415-205(60-30) | A27 | ASTM | <0.3 | <0.8 | <0.6 | <0.05 | <0.06 | >205 | >415 |
SC450 | 2906 | CNS | <0.35 | | | <0.04 | <0.04 | >225 | >450 |
ZG230-450(ZG25) | 5676 | GB | <0.3 | <0.5 | <0.9 | <0.04 | <0.04 | >230 | >450 |
SC450 | G5101 | JIS | <0.35 | | | <0.04 | <0.04 | >225 | >450 |
450-240(65-35) | A27 | ASTM | <0.3 | <0.8 | <0.7 | <0.05 | <0.06 | >240 | >450 |
GS45 | 1681 | DIN | <0.25 | <0.6 | 0.2-0.5 | <0.04 | <0.04 | >225 | >450 |
SC480 | 2906 | CNS | <0.4 | | | <0.04 | <0.04 | >245 | >480 |
ZG270-500(ZG35) | 5676 | GB | <0.4 | <0.5 | <0.9 | <0.04 | <0.04 | >270 | >500 |
SC480 | G5101 | JIS | <0.4 | | | <0.04 | <0.04 | >245 | >480 |
485-275(70-40) | A27 | ASTM | <0.25 | <0.8 | <1.2 | <0.05 | <0.06 | >275 | >485 |
GS52 | 1681 | DIN | <0.3 | 0.3-0.6 | 0.2-0.5 | <0.04 | <0.04 | >255 | >510 |
SCC5 | 2906 | CNS | 0.4-0.5 | 0.3-0.6 | 0.5-0.8 | <0.04 | <0.04 | >295 | >620 |
ZG310-570(ZG45) | 5676 | GB | <0.5 | <0.6 | <0.9 | <0.04 | <0.04 | >310 | >570 |
SCC5 | G5101 | JIS | 0.4-0.5 | 0.3-0.6 | 0.5-0.8 | <0.04 | <0.04 | >295 | >620 |
GS60 | 1681 | DIN | <0.4 | 0.3-0.6 | 0.2-0.5 | <0.04 | <0.04 | >300 | >600 |
Carbon steel castings are a type of casting made from carbon steel, a type of steel that contains carbon as the main alloying element. These castings are used in a wide range of applications, including automotive, construction, oil and gas, and machinery industries.
Carbon steel castings offer several advantages, including high strength, good toughness, and excellent wear resistance. They can be produced in a variety of shapes and sizes, making them suitable for a wide range of applications.
The process of making carbon steel castings involves melting the carbon steel in a furnace and pouring it into a mold to solidify. The casting is then removed from the mold and can undergo further processing, such as heat treatment and machining, to achieve the desired final shape and properties.
Carbon steel castings can be produced in different grades, including low carbon, medium carbon, and high carbon steel, depending on the specific requirements of the application. Each grade has its own unique properties and is suitable for different applications.
Overall, carbon steel castings are widely used in various industries due to their excellent mechanical properties, versatility, and cost-effectiveness. They are a popular choice for manufacturing parts and components that require high strength, durability, and wear resistance.