Introducing our exceptional ferrovanadium, meticulously sourced and directly derived from the epicenter of production excellence, ensuring unrivaled quality and steadfast reliability.
Ferrovanadium, a crucial ferroalloy, plays an indispensable role in the steel industry. This powerful fusion of vanadium and iron, with slight impurities such as sulfur, phosphorus, silicon, and aluminum, is expertly crafted. It is produced through carbon reduction of vanadium pentoxide in an electric furnace or via aluminothermic reduction. This extraordinary alloy is vital as an additive in smelting vanadium-rich alloy steel and alloy cast iron, and it is integral in the production of permanent magnets.
The vanadium composition in ferrovanadium is carefully calibrated to meet specific alloy formulations and manufacturing specifications. The typical vanadium concentration ranges from 30% to 80%, balanced with iron. FeV alloys are classified into three distinct types based on vanadium content: FeV40, FeV60, and FeV80, essential in the smelting of alloy and low-alloy steel. Moreover, vanadium aluminum alloys are critical in titanium alloy production, often termed as 'VQ' VAl.
| Grade |
V≥ |
C≤ |
Si≤ |
P≤ |
S≤ |
Al≤ |
| FeV40 |
40 |
1.0 |
3.0 |
0.2 |
0.1 |
1.5 |
| FeV50 |
50 |
0.75 |
2.5 |
0.1 |
0.05 |
0.8 |
| FeV75 |
75 |
0.3 |
2.0 |
0.1 |
0.05 |
3.0 |
| The chemical composition of ferro vanadium |
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Our core product lineup features ferromanganese, metallic silicon, silicon carbon alloy, cored wire, ferrochrome, silicon manganese alloy, silicon carbide, ferrosilicon, silicon aluminum barium calcium, and silicon barium calcium. We excel in exporting refractory materials alongside a diverse array of other metallurgical products. Our customized processing services are meticulously crafted to fulfill specific customer needs.
Our company is equipped with a 206 cubic meter blast furnace, two 12500 kVA submerged arc furnaces, two 3600 kVA refining furnaces, four medium-frequency electric furnaces, and three cladding line production lines. This advanced infrastructure allows for seamless operation of the manganese series hot charging and hot mixing systems, achieving an efficient, one-stop production process characterized by outstanding quality, high yield, and low consumption.
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