What Is the Current Price of Ferromanganese?
| Ferromanganese market price in India as of April 15, 2026 | ||||||
| Unit: Rupee/metric ton | ||||||
| area | Specification | Lowest price | rise and fall | highest price | rise and fall | Price Explanation |
| DURGAPUR | femn 70 | 71500 | -- | 72000 | -- | Indian market price |
| (Durgabur) | ||||||
| RAIPUR | femn 70 | 71500 | -- | 72000 | -- | Indian market price |
| (Reibur) | ||||||
High Carbon Ferromanganese vs Low Carbon Ferromanganese: Key Differences in Steelmaking Performance
High carbon ferromanganese and low carbon ferromanganese are both essential manganese alloys used in steel production, but they differ significantly in carbon content, refining process, application scope, and final steel quality control. High carbon grade is mainly used for general steelmaking and cost-sensitive production, while low carbon grade is designed for high-grade steels where strict carbon control is required.
Typical Chemical Composition and Industrial Specifications
| Parameter | High Carbon Ferromanganese | Low Carbon Ferromanganese |
|---|---|---|
| Mn Content | 70%–80% | 80%–90% |
| Carbon (C) | 6%–8% | ≤0.5% |
| Silicon (Si) | 1.5%–2.5% | ≤1.0% |
| Phosphorus (P) | ≤0.3% | ≤0.2% |
| Sulfur (S) | ≤0.03% | ≤0.02% |
| Production Process | Blast furnace / submerged arc furnace | Oxygen refining / low-carbon reduction |
| Product Form | Lump | Lump / granule |
| Application Range | General steel, construction steel | Stainless steel, alloy steel, special steel |
Role in Steelmaking and Industrial Application Differences
In steel production, ferromanganese is used to add manganese and remove oxygen, improving hardness, wear resistance, and structural strength of steel.
High carbon ferromanganese is widely used in large-scale steelmaking, especially construction steel, structural steel, and low-to-medium grade alloy steels. It provides efficient manganese addition at a lower cost, making it suitable for bulk industrial production. However, due to its higher carbon content, it is not suitable for steels requiring strict carbon control.
Low carbon ferromanganese is used in high-end steel applications, such as stainless steel, automotive steel, and special alloy steels. Its low carbon content ensures that it does not increase the carbon level in the final steel, which is critical for corrosion resistance, weldability, and mechanical performance stability.
From a production perspective, low carbon FeMn requires additional refining steps, making it more expensive but significantly more suitable for precision steel grades.
High Carbon vs Low Carbon vs Medium Carbon Ferromanganese: Application Selection Guide
High carbon ferromanganese is the most economical grade, designed for mass steel production where carbon increase is acceptable. It delivers stable manganese input but introduces higher carbon content into the steel system.
Medium carbon ferromanganese serves as a balanced industrial option, reducing carbon content compared to high carbon grade while maintaining reasonable cost efficiency. It is widely used in medium-grade alloy steels where partial carbon control is required.
Low carbon ferromanganese is the premium grade used in high-performance and stainless steel production, ensuring minimal carbon contamination and superior steel quality control. It is essential for applications requiring high toughness, corrosion resistance, and strict chemical composition standards.
Why Carbon Content Determines Ferromanganese Selection
Carbon content is the key factor affecting ferromanganese selection because it directly influences the final steel properties. High carbon levels improve cost efficiency but limit application in precision steels. Low carbon levels improve steel purity but increase production cost.
Therefore, steel manufacturers select grades based on:
required steel grade (general vs high-end)
carbon tolerance level
cost structure of production
final mechanical and chemical performance requirements
Industrial Decision Guide for Ferromanganese Buyers
High carbon ferromanganese is preferred when the goal is cost-efficient mass production. It is widely used in construction and structural steel industries.
Low carbon ferromanganese is selected when the priority is steel quality and performance stability, especially in stainless steel and automotive industries.
Medium carbon ferromanganese provides a practical compromise, balancing cost and quality for medium-grade steel production.
Conclusion: Choosing the Right Ferromanganese Grade for Steel Quality Control
High carbon and low carbon ferromanganese serve different roles in the steel industry. High carbon grade supports large-scale, cost-driven production, while low carbon grade is essential for high-quality steel manufacturing. Understanding the carbon impact is critical for optimizing steel performance, production efficiency, and cost control.
FAQ for Steel Manufacturers and Buyers
Why is carbon content important in ferromanganese?
Because it directly affects the final carbon level and mechanical properties of steel.
What is the main use of high carbon ferromanganese?
It is mainly used in construction steel and general industrial steel production.
Why is low carbon ferromanganese more expensive?
Due to additional refining processes required to reduce carbon content.
Can high carbon FeMn be used in stainless steel?
Not recommended, as it increases carbon content and reduces corrosion resistance.
What is medium carbon ferromanganese used for?
It is used in medium-grade alloy steels requiring partial carbon control.
Which grade is most widely used globally?
High carbon ferromanganese due to its cost advantage and large-scale demand.
Get Reliable Ferromanganese Supply for Steel Production
We supply stable ferromanganese grades for global steelmaking industries:
High carbon / medium carbon / low carbon FeMn available
Consistent Mn content and controlled impurities
Stable lump size for furnace operation
Bulk supply for steel plants and traders
📩 Email: market@zanewmetal.com
📱 WhatsApp: +86 15518824805
Contact us today to receive a competitive quotation within 24 hours.
What is the price of ferro manganese?
| Summary of China's Ferromanganese Market Prices as of April 15, 2026 | |||
| Unit: Yuan/ton, ex-factory cash price including tax (for reference only) | |||
| 1) High-carbon ferromanganese | |||
| Brand | area | Today's mainstream ex-factory transaction price | Average price change |
| femn65c7.0 | Sichuan (p<0.25) | -- | -- |
| Guizhou (p<0.2) | -- | -- | |
| Guangxi (p<0.2) | 5500-5600 | -- | |
| Shanxi (p<0.2) | 5700-5750 | -- | |
| Henan (p<0.2) | -- | -- | |
| Inner Mongolia (p<0.2) | 5600 | -- | |
| Jiangsu (p<0.2) | 5800-5900 | ↓100 | |
| Shandong (p<0.2) | 5750 | -- | |
| Shanghai (p<0.2) | 5800-5900 | ↓100 | |
| Tianjin (p<0.2) | 5800-5900 | ↓100 | |
| Liaoning (p<0.2) | -- | -- | |
| femn75c7.0 | Yunnan (p<0.3) | -- | -- |
| Yunnan (p<0.2) | 6300-6400 | -- | |
| Yunnan (p<0.15) | -- | -- | |
| Guangxi (p<0.25) | 6300-6400 | -- | |
| Hunan (p<0.25) | -- | -- | |
| Guizhou (p<0.25) | -- | -- | |
| Inner Mongolia (p<0.25) | 5900 | -- | |
| Zhejiang (p<0.25) | 6700-6800 | -- | |
| Zhejiang (p<0.15) | 6700-6800 | -- | |
| Shanghai (p<0.25) | 6700-6800 | -- | |
| 2) Blast furnace ferromanganese | |||
| product | Brand | Today's mainstream ex-factory transaction price | Average price change |
| blast furnace ferromanganese | femn65c7.0 | 5600 | -- |
| 3) Medium-carbon ferromanganese | |||
| Brand | area | Today's mainstream ex-factory transaction price | Average price change |
| femn75c2.0P<0.35 | Guizhou | -- | -- |
| Guangxi | -- | -- | |
| Guizhou (P<0.2) | {=MT1001-GZ2CJ} | {=MT1001-ZD_GZ2CJC} | |
| femn75c2.0P<0.25 | Guizhou | 7900-8000 | -- |
| Guangxi | 7900-8000 | -- | |
| Hunan | 7900-8000 | -- | |
| Henan | 7900-8000 | -- | |
| Inner Mongolia | 7900-8000 | -- | |
| femn75c2.0P<0.2 | Zhejiang | 8300-8400 | -- |
| 4) Low-carbon ferromanganese: | |||
| Brand | area | Today's mainstream ex-factory transaction price | Average price change |
| FEMN80C0.7 Group II Phosphorus | Guizhou | 9800-9900 | -- |
| Hunan | 9800-9900 | -- | |
| Shanxi | 9800-9900 | -- | |
| FEMN80C0.7 group of phosphorus | Guizhou | 9800-10000 | -- |
| FEMN80C0.4 Group II Phosphorus | Hunan | 10300-10400 | -- |
| FEMN80C0.4 group of phosphorus | Hunan | 10300-10400 | -- |
| Henan | 10300-10400 | -- | |
Why Choose ZhenAn for Ferromanganese (Mn-Fe Alloy)?
Stable Manganese Content – Consistent Mn/Fe ratios ensure reliable performance in steelmaking and deoxidation processes.
Strict Quality Control – Low impurity levels (S, P, C) help improve final steel quality and process stability.
Multiple Grades Available – High carbon, medium carbon, and low carbon ferromanganese options to meet different metallurgical needs.
Reliable Bulk Supply – Strong production capacity supports steady delivery for long-term industrial procurement.
Competitive Factory Pricing – Direct supply helps reduce overall procurement cost for steel plants and traders.
Export Experience – Complete documentation (COA, MSDS, packing list) ensures smooth international shipment.
ZhenAn provides stable and cost-efficient ferromanganese solutions for global steelmaking applications.
