Manganese Metal

It is also the important alloying element which is used to make stainless steel, high strength low alloy steel (HSLA), aluminium manganese alloy and copper manganese alloy. 

Manganese Metal Flakes

Electrolytic manganese metal refers to the single metal obtained by acid leaching manganese ore to obtain manganese salt, and then electrolyzed in an electrolytic cell. It looks like iron, in irregular flakes, hard and brittle, shiny on one side and rough on the other, and silvery white to brown in color.

Calcium silicon wire

Silicon calcium wire is an additive in steelmaking.

Ferrosilicon Powder

Ferrosilicon is a new type of alloy, which is silver-grey in the form of lumps, spheres, granules and powders.

Ferromanganese

Ferromanganese is an indispensable deoxidizer and desulfurizer in the steelmaking industry.

Silicon Manganese

Using silicon-manganese alloy to make steel, the melting points of deoxidation products MnSiO₃ and Mn₂SiO₄ are 1270 ℃ and 1327 ℃ respectively, which have the advantages of low melting point, large particle size, easy to float, and good deoxidation effect.

Ferrosilicon

Ferrosilicon is a new type of alloy, which is silver-grey in the form of lumps, spheres, granules and powders.

CaSi

Silicon calcium alloy is a composite alloy composed of silicon, calcium and iron.

Ferrosilicon 75

Ferrosilicon is an iron alloy composed of iron and silicon.

Ferrosilicon 72

Ferrosilicon is an iron alloy composed of iron and silicon.

Ferrosilicon 70

Ferrosilicon is a new type of alloy, which is silver-grey in the form of lumps, spheres, granules and powders.

Ferrosilicon 65

Ferrosilicon is a new type of alloy, which is silver-grey in the form of lumps, spheres, granules and powders.

FeMn68Si 18

Using silicon-manganese alloy to make steel, the melting points of deoxidation products MnSiO₃ and Mn₂SiO₄ are 1270 ℃ and 1327 ℃ respectively, which have the advantages of low melting point, large particle size, easy to float, and good deoxidation effect.

FeMn65Si 17

Using silicon-manganese alloy to make steel, the melting points of deoxidation products MnSiO₃ and Mn₂SiO₄ are 1270 ℃ and 1327 ℃ respectively, which have the advantages of low melting point, large particle size, easy to float, and good deoxidation effect.

FeMn60Si 14

Using silicon-manganese alloy to make steel, the melting points of deoxidation products MnSiO₃ and Mn₂SiO₄ are 1270 ℃ and 1327 ℃ respectively, which have the advantages of low melting point, large particle size, easy to float, and good deoxidation effect.

High carbon ferromanganese

Ferromanganese is an indispensable deoxidizer and desulfurizer in the steelmaking industry.

Medium carbon ferromanganese

Ferromanganese is an indispensable deoxidizer and desulfurizer in the steelmaking industry.

Low carbon ferromanganese

Ferromanganese is an indispensable deoxidizer and desulfurizer in the steelmaking industry.

Ferromolybdenum

FeMo is an iron alloy composed of molybdenum and iron, generally containing 50% to 60% of molybdenum, and is used as an alloy additive in steelmaking.

Ferrovanadium

The vanadium content of the iron and vanadium master alloy (fe-v binary alloy) is not less than 35.0% (by weight) and not more than 85.0% (by weight).

FeMo70-2

FeMo is an iron alloy composed of molybdenum and iron, generally containing 50% to 60% of molybdenum, and is used as an alloy additive in steelmaking.

FeMo70

FeMo is an iron alloy composed of molybdenum and iron, generally containing 50% to 60% of molybdenum, and is used as an alloy additive in steelmaking.

FeMo60-2

FeMo is an iron alloy composed of molybdenum and iron, generally containing 50% to 60% of molybdenum, and is used as an alloy additive in steelmaking.

FeMo60

FeMo is an iron alloy composed of molybdenum and iron, generally containing 50% to 60% of molybdenum, and is used as an alloy additive in steelmaking.

FeMo55

FeMo is an iron alloy composed of molybdenum and iron, generally containing 50% to 60% of molybdenum, and is used as an alloy additive in steelmaking.

FeV80

The vanadium content of iron and Vanadium Intermediate Alloy (fe-v Binary Alloy) is not less than 35.0% (by weight) and not more than 85.0% (by weight) .

FeV50

The vanadium content of iron and Vanadium Intermediate Alloy (fe-v Binary Alloy) is not less than 35.0% (by weight) and not more than 85.0% (by weight) .

FeV80

The vanadium content of the iron and vanadium master alloy (fe-v binary alloy) is not less than 35.0% (by weight) and not more than 85.0% (by weight).

FeV60

The vanadium content of the iron and vanadium master alloy (fe-v binary alloy) is not less than 35.0% (by weight) and not more than 85.0% (by weight).

FeV40

The vanadium content of the iron and vanadium master alloy (fe-v binary alloy) is not less than 35.0% (by weight) and not more than 85.0% (by weight).

FeNb sheet

Ferroniobium is an iron alloy composed mainly of niobium and iron. It also contains impurities such as aluminum, silicon, carbon, sulfur, and phosphorus. According to the niobium content of the alloy, it is divided into FeNb50, FeNb60, and FeNb70. The iron alloy produced from niobium tantalum ore contains tantalum, known as niobium tantalum iron.

FeNb powder

Ferroniobium is an iron alloy composed mainly of niobium and iron. It also contains impurities such as aluminum, silicon, carbon, sulfur, and phosphorus. According to the niobium content of the alloy, it is divided into FeNb50, FeNb60, and FeNb70. The iron alloy produced from niobium tantalum ore contains tantalum, known as niobium tantalum iron.

FeNb particles

Ferroniobium is an iron alloy composed mainly of niobium and iron. It also contains impurities such as aluminum, silicon, carbon, sulfur, and phosphorus. According to the niobium content of the alloy, it is divided into FeNb50, FeNb60, and FeNb70. The iron alloy produced from niobium tantalum ore contains tantalum, known as niobium tantalum iron.

FeNb block

Ferroniobium is an iron alloy composed mainly of niobium and iron. It also contains impurities such as aluminum, silicon, carbon, sulfur, and phosphorus. According to the niobium content of the alloy, it is divided into FeNb50, FeNb60, and FeNb70. The iron alloy produced from niobium tantalum ore contains tantalum, known as niobium tantalum iron.

Ferrotitanium2

According to the properties of the selected materials, titanium concentrate suitable for the requirements can be obtained by using different magnetic separation process parameters and flow processes.Or customized according to customer requirements.

Ferrotitanium

Production process: Ferrotitanium is an alloy composed of titanium and iron. The process of producing ferrotitanium usually involves mixing titanium and iron raw materials and reacting at high temperatures.

Silicon metal

Silicon metal is an important metallurgical raw material, usually used to prepare silicon alloys and other silicon-based alloys.

Silicon metal

Silicon Metal processed by excellent industrial silicon and including full varieties.

Ferrochrome

Ferrochrome is an iron alloy composed of chromium and iron. It is an important alloy additive in steelmaking.

High carbon ferrochrome

Ferrochrome is an iron alloy composed of chromium and iron. It is an important alloy additive in steelmaking.

Medium carbon ferrochrome

Ferrochrome is an iron alloy composed of chromium and iron. It is an important alloy additive in steelmaking.

Low carbon ferrochrome

An iron alloy with chromium and iron as the main components. It is one of the main alloying agents used in the iron and steel industry.