Alloy and Steel Insights

Your Go-To Guide for Trending Alloy and Steel Insights! – RH Alloys

Discover the world of alloys and steel with RH Alloys! Our guide is here to make it easy for you, providing simple insights and valuable information about these fascinating metals. Stay informed and explore the wonders of RH Alloys.

Ferro Alloys (Orissa)

Ferro Alloys Specification
  Cr Mn (Min) P (Max) S (Max) Si C
Ferro Chrome 57-64 %   0.03%   2.5-3.5%m 6-8%
Ferro Manganese   75% 0.2% 0.05% 1.5% Max. 6-8%
  70% 0.25% 0.03% 1.5% Max. 7.5% Max.
HC Silico Manganese   60% 0.3% 0.02% 14% Min. 2% Max.
  65% 0.15% 0.02% 16% Min. 2% Max.
MC Silico Manganese   56% 0.14% 0.01% 23% Min. 0.46% Max.
LC Silico Manganese   56% 0.14% 0.01% 23% Min. < 0.1%

What are the common applications of Ferro Alloys?

Ferro Alloys find widespread applications in various industries, serving as essential components in steel and alloy production. Their robust properties enhance the durability and strength of materials, making them crucial for construction, automotive, and manufacturing sectors.

Ferro Alloys, vital components in steel and alloy production, have diverse applications across industries. In construction, they bolster structural integrity, while the automotive sector relies on their strength for manufacturing resilient components. Their versatility extends to the manufacturing sector, where Ferro Alloys play a pivotal role in creating materials with enhanced durability and performance.

Metallurgical Coke (Orissa)

Metallurgical Coke Specification
Specification of Met Coke
Met Coke CSR: > 64% CRI 20-25% M40: 92% M10: 10% ASH: 9-13% VM < 1%

What is the role of Metallurgical Coke in the steelmaking process, and how does it contribute to the production of high-quality steel?

Metallurgical coke plays a pivotal role in the steelmaking process as a crucial carbon source and reducing agent. During the production of steel, metallurgical coke undergoes combustion to generate intense heat in blast furnaces. This heat is essential for reducing iron ore into molten iron, while the carbon content from the coke imparts strength and durability to the resulting steel. Its ability to serve as a powerful reducing agent makes metallurgical coke indispensable in the transformation of raw materials into high-quality steel.

In the steelmaking industry, the significance of metallurgical coke extends beyond its role as a mere fuel source. Its carbon content not only facilitates the reduction of iron ore but also influences the chemical composition of the steel produced. Metallurgical coke contributes to the overall metallurgical balance, ensuring the desired properties such as hardness and strength in the final steel product. As an integral component of the steelmaking process, understanding the intricate role of metallurgical coke is crucial for optimizing steel production and achieving desired material characteristics.

Stainless Steel – Dimensions

Dimension of Stainless Steel
Products Max Width (mm) Thickness (mm)
min max
Hot Rolled Coil 1550 2.8 6.5
Plates 1550 4 50
HRAP / Coil 1550 2.8 6.5
CRAP Coil 1000 0.4 2
1550 0.5 4
Precission Strips 435 0.05 0.5
Razor Blade Steel 340 0.076 0.45
CRAP 1250 0.4 3
Slab 1650 160 250
Hot Rolled Coil 1650 2 12.7
Plates 1650 12.7 80
HRAP Coil / 2E Coil 1650 1.4 10
CRAP Coil 1600 0.3 5

How to choose the right Stainless Steel Finishes for different applications?

Selecting the appropriate Stainless Steel finish is pivotal for both aesthetic appeal and functional performance. Smooth finishes like brushed or polished are ideal for applications requiring a sleek appearance, while textured finishes offer increased resistance to wear and corrosion. Tailoring the finish to the specific requirements ensures optimal performance and longevity in diverse industrial applications.

When selecting Stainless Steel finishes, it’s crucial to align aesthetic preferences with functional needs. Smooth finishes, like brushed or polished, offer a sleek look suitable for architectural projects. Meanwhile, textured finishes provide added resilience against wear and corrosion, making them ideal for heavy-duty applications in industrial settings. Tailoring the finish to specific requirements ensures that Stainless Steel not only meets but exceeds expectations in various environments.

Stainless Steel – Finishes

Stainless Steel Finishes
Surface Finish Definition Applications
No. 1 Hot rolled annealed, shot blasted and pickled. Pipes, tubing, chemical tank, general fabrication
No. 2 Dull Cold rolled annealed and pickled. Deep drawn utensils, heat exchanger, exhaust pipe
No. 2B Cold rolled annealed and pickled and skin passed; given an appropriate luster by again cold rolling. Food industry, kitchen utensils, medical equipment, construction material
BA Bright annealed finish; processed with bright heat treatment after cold rolling. Decorative usage, kitchen utensils, electric equipment, building construction
No. 3 Cold rolled annealed and pickled and polished with 100 to 120 grit. Kitchen utensils, building construction, medical equipment
No. 4 Cold rolled annealed and pickled and polished with 150 to 180 grit. Kitchen utensils, building construction, medical equipment
Scotch Brite Very fine hairline finish generated by polishing with rolls made out of scotch brite material. Architectural purposes, railway cabins, elevator interiors, paneling kitchen appliances