Ancient steel manufacturing process was carried out in bloomeries and crucibles. The Industrial Revolution brought about the development of large scale methods of producing steel. Steelmaking involves removal of impurities such as nitrogen, silicon, phosphorus, sulphur and carbon from the sourced iron, as well as alloying other elements such as manganese, nickel, chromium, etc., to produce different grades of steel.
Modern steel industries use recycled materials as well as traditional raw materials such as iron ore, coal and limestone. Almost all the steel manufactured today uses 2 processes-basic oxygen steelmaking (BOS) and electric arc furnaces (EAF).
Q195 STEEL BILLETS
Our Q195 Steel Billets are high-quality square and flat steel billets designed for a wide range of industrial and construction applications. Manufactured in compliance with global standards (GB, JIS, ASTM), these billets offer excellent structural integrity and workability.
Ideal for rolling, forging, and rebar production, Q195 billets from BR Steel ensure durability, uniformity, and precision for your steel manufacturing needs.
Step 2: Primary Steel Making
The remaining impurities are removed by either BOS or EAF methods.
In the BOS method, recycled or scrapped steel is added to the molten iron in a convertor. Oxygen is blown through the metal at high tem- peraturesand this reduces the carbon content to about 0-1.5%.
In the EAF method, scrap steel is fed through high-power electric arcs to melt the metal and convert it into high quality steel. The steel that is obtained at the end of this step, by either of the methods, is called raw steel.
Step 3: Secondary Steel Making
This step involves treating the raw steel in different ways to get different grades of steel. This may include addition or removal of certain ele- ments, and / or altering the temperature and the production environ- ment.
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Step 4: Secondary Forming
The final step of the steel manufacturing process creates the final shape and properties of the steel. Secondary forming is accomplished with different methods such as shaping (cold rolling methods), ma- chining (drilling), joining (welding), coating, heat treatment, and sur- face treatment. At the completion of step 6, the steel is fully shaped, formed, and ready for use and processing in various applications.