Products Description
Chemical composition(1):
|
Chemical |
Fe |
C |
Si |
Mn |
S |
p |
|
|
Spec (%) |
99.60Min. |
0.003Max. |
0.01Max. |
0.2Max. |
0.004Max. |
0.005Max. |
|
|
Chemical |
Al |
Cu |
Ni |
Cr |
Ti |
CFB(A/m) |
|
|
Spec (%) |
0.054Max. |
0.01Max. |
0.01Max. |
0.01Max. |
0.01Max |
20.2 |
29.2 |
Chemical composition(2):
|
Chemical |
Fe |
C |
Si |
Mn |
S |
p |
|
|
Spec (%) |
99.73Min. |
0.002Max. |
0.01Max. |
0.19Max. |
0.004Max. |
0.009Max. |
|
|
Chemical |
Al |
Cu |
Ni |
Cr |
Ti |
CFB(A/m) |
|
|
Spec (%) |
0.051Max. |
0.01Max. |
0.01Max. |
0.01Max. |
0.01Max |
8.2 |
8.5 |
Chemical composition(3):
|
Chemical |
Fe |
C |
Si |
Mn |
S |
p |
|
Spec (%) |
99.60Min. |
0.004Max. |
0.01Max. |
0.14Max. |
0.005Max. |
0.011Max. |
|
Chemical |
Al |
Cu |
Ni |
Cr |
Ti |
|
|
Spec (%) |
0.26Max. |
0.02Max. |
0.01Max. |
0.02Max. |
0.01Max |

Automotive steel plate is a crucial material in the manufacture of vehicles, serving as the backbone for both the body and various components. Among the various types of metals used, pure iron material plays a significant role, especially in specific applications due to its unique properties.
Pure iron, with a carbon content of less than 0.01% and total impurity element content less than 0.5%, is also known as alloy raw material pure iron. Its primary applications include being used as a raw material for electrothermal alloys, precision alloys (such as soft magnetic materials, hard magnetic materials, elastic alloys, and expansion alloys), low-carbon and ultra-low-carbon stainless steels, and powder metallurgy. Pure iron can be processed into steel billets, bars, flat steel, and hot-rolled wire rods.


Despite the widespread use of steel alloys in automotive manufacturing, pure iron material has its distinct advantages and applications. For instance, cast iron, which has a lower coefficient of thermal expansion and good thermal stability, is often used to manufacture engine blocks for automotive engines. This material can withstand the harsh environments of high temperatures and high pressures. Additionally, automotive wheel hubs are frequently made of cast iron, leveraging its high density, high strength, and low wear characteristics to endure substantial loads and impacts.
While steel, which is an alloy of iron with a controlled amount of carbon and possibly other elements like chromium, nickel, and manganese, is more commonly used in automotive steel plates due to its enhanced hardness, strength, and corrosion resistance, pure iron still finds its niche in specific components where its unique properties are advantageous.
In summary, automotive steel plate, which often incorporates various types of steel alloys, is indispensable in the automotive industry. Among them, pure iron material, with its specific characteristics, plays a vital role in critical components such as engine blocks and wheel hubs. Automakers carefully select these materials based on the specific needs and performance requirements of each component, ensuring the stability, safety, and durability of the vehicles.

Process of Corrosion Resistant Electrolytic Sheets
2.Surface preparation to ensure optimal plating adhesion.
3.Electrolytic plating with corrosion-resistant metal, such as zinc or nickel.
4.Post-plating treatment to enhance coating durability.
5.Quality control checks for coating thickness, uniformity, and corrosion resistance.
6.Final inspection to ensure sheets meet specifications for use in demanding applications.


FAQ


partner
We are proud to have established strong, trusted partnerships with leading steel companies. These alliances have enabled us to enhance our operations, ensure the delivery of top-quality products, and maintain our industry leadership, driving excellence and innovation.








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