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Products

Raw Material

pro_pig_iron

Pig Iron

Basic Pig Iron, PL1, PL2, according to GOST 805-95

  1. Chemical composition according to GOST 805-95
  2. In pigs weighing not more than 18 kg
  3. Mass basis - actual
  4. Packing: in bulk, without packing

We are very interested in production of various foundry grades of pig iron with restricted silicon, manganese, sulfur, phosphorus contents.

Our pig iron ingots are very clean, uniform, and contain fewer impurities if compared to other producers. The generation of fines, chips, dust is also less if compared to others.

Therefore our products are sold at a premium price compared to others.

TYPICAL CHEMICAL COMPOSITION

Carbon 4,50% max
Silicon 4,50% max
Manganese 1,5 % max
Phosphorous 0,12% max
Sulfur 0,05% max
Weight ratio, %
    Mn P, Max S, Max
    Group Class Category
    1 2 3 4 A 6 B 1 2 3 4 5
P1 0,5-0,9 max 0,5 0,5-1,0 1,0 - 1,5 - 0,1 0,2 0,3 0,01 0,02 0,03 0,04 0,05
PL1 Max 0,5 max 0,5 0,5-1,0 1,0 - 1,5 - 0,1 0,2 0,3 0,01 0,02 0,03 0,04 0,05
PL2 0,5-0,9 max 0,3 0,3 - 0,5 0,5 - 0,9 0,9 - 1,5 0,08 0,12 0,3 0,01 0,02 0,03 0,04 0,05
P2 Max 0,5 max 0,3 0,3 - 0,5 0,5 - 0,9 0,9 - 1,5 0,08 0,12 0,3 0,01 0,02 0,03 0,04 0,05
pro_iron_ore_01

Iron Ore

Fe Content Base 62%, Range 56% to 66%
Silica Base 3.5%, Maximum 8.0%
Alumina Base 2.0%, Maximum 4.0%
Phosphorus Base 0.10%, Maximum 0.15%
Sulphur Base 0.02%, Maximum 0.06%
Loss on Ignition (%DW) Base 4.7%, Maximum 11.0%
Moisture Base 8.0%, Maximum 10.0%
Granularity Base Size >90% < 6.3mm, at least 90% <0.15mm

 

58% Premium, Fe Fines

Fe Content Base 58%, Range 56% to 60%
Silica Base 5.5%, Maximum 9.0%
Alumina Base 3.5%, Maximum 5.0%
Phosphorus Base 0.08%, Maximum 0.15%
Sulphur Base 0.04%, Maximum 0.07%
Moisture Base 8.0%, Maximum 10.0%
Granularity Base Size >90% < 6.3mm, at least 90% <0.15mm

 

65% Fe Brazilian Fines

Material Origin Brazil
Fe Content Base 65.0%, Range 63.5% to 66.0%
Silica Base 2.7%, Maximum 3.7%
Alumina Base 1.2%, Maximum 1.6%
Phosphorus Base 0.045%, Maximum 0.060%
Sulphur Base 0.01%, Maximum 0.05%
Moisture Base 9.0%, Maximum 10.0%
Granularity >90%<40%<0.15mm

 

63% Fe Australian Lump Premium

Material Origin Australia
Fe Content Base 63%, Range 61% to 65%
Silica Base 3.5%, Maximum 5.0%
Alumina Base 1.5%, Maximum 2.0%
Phosphorus Base 0.08%, Maximum 0.10%
Sulphur Base 0.02%, Maximum 0.04%
Loss on Ignition (%DW) Base 5.0%
Moisture Base 4.0%, Maximum 6.5%
Granularity Max 13.5%31.5mm

 

65% Fe Blast Furnace Pellet

Fe Content Base 65%, Range 60% to 70%
Silica Base: 4.5%, Maximum: 6.0%
Alumina Base: 0.4%, Maximum: 0.8%
Phosphorus Base: 0.03%, Maximum: 0.05%
Sulphur Base 0.01%, Maximum 0.02%
Moisture Base 2.0%/DW, Max 3.0%/DW
Granularity Maximum Size >90% >10.0mm
Compression Strength Base 250daN, min 200daN

 

66% Fe Concentrate

Fe Content Base 66%, Range 63% to 70%
Silica Base: 4.5%, Maximum: 9.0%
Alumina Base: 0.5%, Maximum: 2.0%
Phosphorus Base: 0.02%, Maximum: 0.06%
Sulphur Base 0.03%, Maximum 0.10%
Titanium Base 0.05%, Maximum 0.30%
Moisture Base 8.0%/DW, Max 11.0%/DW
Granularity Maximum Size >80% <0.05mm
pro_ferro-alloys

Ferro-Alloys

Ferrosilicon

Silicon ferroalloy consumption is driven by cast iron and steel production, where silicon alloys are used as deoxidizers. Some silicon metal was also used as an alloying agent with iron.

Ferromanganese

Two manganese ferroalloys, ferromanganese and silicomanganese, are key ingredients for steelmaking.

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