Rolled Products
Alloy Steel Division
India remains a bright spot in the global steel industry and the steel demand in the country is expected to show a healthy growth of 8.2% in 2024 compared to a global growth of 1.7%, according to the latest Short Range Outlook of World Steel Association. Though alloy and special steel sector constitutes only about 12-14% of the total steel production, it accounts for nearly 20% in value terms as it produces value added steel products.
Alloy steel industry manufactures a wide range of engineered steel products to meet the requirements of critical applications in highly specialised and quality conscious industries such as Automobile, Auto components, Engineering and Defence sectors.
We are proud to announce that we have got the clearance to make 204000 MT/PA of alloy steel in our new facility at Doraha, Punjab.
We are launching a furnace and rolling mill to make alloy steel products .
Rolled Products
Alloy Steel Division
India remains a bright spot in the global steel industry and the steel demand in the country is expected to show a healthy growth of 8.2% in 2024 compared to a global growth of 1.7%, according to the latest Short Range Outlook of World Steel Association. Though alloy and special steel sector constitutes only about 12-14% of the total steel production, it accounts for nearly 20% in value terms as it produces value added steel products.
Alloy steel industry manufactures a wide range of engineered steel products to meet the requirements of critical applications in highly specialised and quality conscious industries such as Automobile, Auto components, Engineering and Defence sectors.
We are proud to announce that we have got the clearance to make 204000 MT/PA of alloy steel in our new facility at Doraha, Punjab.
We are launching a furnace and rolling mill to make alloy steel products .
Alloy Steel Division
At VIL, we specialize in producing a diverse array of engineered alloy steel products tailored for demanding applications in sectors such as automotive, auto components, engineering, and defense. Our alloy steel stands apart from carbon steel, reflecting unique production processes, advanced technology, and specialized marketing approaches. Currently, the alloy steel industry in the country boasts an estimated production capacity of around 10 million tonnes.
Furnace Division
Rolling Division
Alloy Steel Products
Alloy Steel Ingots & Billets
Engineered for precision and durability, serving automotive and industrial needs.
Rolled Products
Including round bars, square bars, RCS(Round Corner Squares), Hex and flat bars, tailored for applications in engineering and defense sectors.
Specialty Grades
Custom grades designed for high performance applications in critical sectors.
Technology: Equipped with advanced manufacturing technologies such as Vacuum Degassing (VD) and Ladle Refining Furnace (LRF), ensuring the production of steel that meets the highest international standards.
Ladle Refining Furnace - A State-Of-The-Art Method For High-Quality
Benefits of the LRF method
- Homogenization of chemical composition and temperature of molten steel.
- Deoxidization or removal of oxygen inclusions
- Heating of the liquid steel to a temperature suitable for continuous casting
- Reduction of hydrogen and nitrogen
- Removal of carbon for meeting the requirement of specific steel grades.
- As low as 0.002% of sulfur concentrations reduction
- Reduction of unwanted nonmetallic elements
- Improvement in toughness, ductility, and transverse properties
- Save consumption of Ferro Alloys
- Increases productivity as the melting furnace gets emptied earlier
Vacuum Degassing Solves a Critical Problem
The vacuum degassing process allows the production of high quality, low carbon, and ultra-low carbon steels and stainless steels, with minimal oxygen, hydrogen, and nitrogen contamination. The main benefits include:
- Reducing hydrogen content to avoid embrittlement of steel.
- Reducing oxygen content to enhance microcleanliness.
- Improving the distribution of alloying elements and other additives.
- Controlling the composition of the steel to tighter chemistry specifications.
- Improving mechanical properties such as uniform transverse ductility, fatigue resistance, and high-temperature performance.
- Achieving exceptionally low carbon content steel heats beyond those obtainable by conventional means.