aveks
TRANSCRIPT
ContentIndex
Company Profile
Pig IronsFoundry Pig IronNodular / Basic Pig Iron
Ferro AlloysFerro SiliconFerro Manganese / Ferro Silico ManganeseFerro Chrome / Ferro PhosporusFerro Silico Magnesium
Noble AlloysFerro Titanium / Ferro Niobium / Ferro Molybdenum / Ferro BoronFerro Tungsten / Ferro Vanadium / Moly Oxide / Molybdenum Metal-BarMolybdenum Metal-Briquettes
Recarburizers/CokesRecarburizersMetallurgical Coke / Foundry Coke
MetalsCobalt / Tin / Lead / Silicon MetalMagnesium Metal / Manganese Metal / Nickel
Cored WiresCored Wires
Abrasives / Silicon Carbide / Calcium CarbideSteel Shot / Steel Grit / Stainless Steel ShotSteel Shot / Steel Grit / Stainless Steel / SiC Briquette / SiC Powder / Shot CaC2
Inoculants / ResinsInoculantsResins
Refractories / MineralsRefractories
AVEKS Map
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Company Profile
Since 1995 AVEKS AS has been a supplier of raw materials for the industrial production and steel.
With this experience in conjunction with our broad spectrum of suppliers AVEKS AS offers a wide range of products including; pig irons, ferro alloys, noble alloys, coke and recarburizers, metals and minerals, a variety of cored wires, abrasives, refractory products and chemicals for iron, steel, non-ferrous industries. Thanks to our well-established position in the market and our advantageous relationship with producers around the world, we are continually developing new products and expanding our customer base.
We try to create close relationships with customers to ensure their happiness and satisfaction by offering our products at competitive prices. Both our cost-effective and creative solutions within this market have enabled us to accommodate ourselves to the needs of the even larger growing world market.
We take pride not only in the reliability and quality of our products, but also in the speed in which transactions are made. Our commitment to excellence has helped expand our customer base to cover: Turkey, Europe, CIS and Middle East.
We have successfully undertaken numerous obstacles to minimize or diminish customer hassles by utilizing our organized professional services. Our offices (Istanbul, Beijing, Odessa, Hong Kong, Düsseldorf and Aleppo) around the world, our warehouses in different locations and skilled personel try to optimize the quality of goods by protecting imported goods against damage, loss and inefficient utilization.
Over the years we have elevated ourselves to become one of the most trusted suppliers of all kind of metallurgical raw materials.
Above all, our primary goal is to help better serve you with your needs.
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PIG IRONSPIG IRONS
FOUNDRY PIG IRONC Si Mn P S
L1 3.50-4.80 % 3.20-3.60 % 0.40-0.80 % 0.08 % max 0.04 % max
L2 3.50-4.80 % 2.80-3.20 % 0.40-0.80 % 0.08 % max 0.04 % max
L3 3.50-4.80 % 2.40-2.80 % 0.40-0.80 % 0.08 % max 0.04 % max
L4 3.50-4.80 % 2.00-2.40 % 0.40-0.80 % 0.08 % max 0.04 % max
L5 3.50-4.80 % 1.60-2.00 % 0.40-0.80 % 0.08 % max 0.04 % max
L6 3.50-4.80 % 1.20-1.60 % 0.40-0.80 % 0.08 % max 0.04 % max
L5-L6 Low Mn 3.50-4.80 % 1.00-2.00 % 0.099 % max 0.08 % max 0.04 % max
Size 12-18 kg ingots without notches
Packing Bulk
FOUNDRY PIG IRON
With its defined and closely controlled specification and the absence of metallic impurities, pig iron is a reliable and consistent charge material for both electric steelmaking and ferrous castings production. It also contains valuable alloying elements and reduces the energy consumption of a melt.
HEMATITE PIG IRON [also known as FOUNDRY PIG IRON] is used mainly in the manufacture of grey iron castings in cupola or induction furnaces.
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PIG IRONS
BASIC PIG IRON
NODULAR PIG IRON
C Si Mn P S
Low Mn 3.50-4.80 % 0.60-1.00 % 0.099 % max 0.08 % max 0.04 % max
PL1 / PL2 3.50-4.80 % 0.60-1.20 % 0.40-0.80 % 0.08 % max 0.04 % max
Size 12-18 kg ingots without notches
Packing Bulk
C Si Mn P S
NODULAR 0.5 3.50-4.80 % 0.5 % max 0.05 % max 0.045 % max 0.015 % max
NODULAR 1.0 3.50-4.80 % 1.00 % max 0.05 % max 0.045 % max 0.015 % max
NODULAR 1.5 3.50-4.80 % 1.50 % max 0.05 % max 0.045 % max 0.015 % max
NODULAR 2.0 3.50-4.80 % 2.00 % max 0.05 % max 0.045 % max 0.015 % max
NODULAR 2.5 3.50-4.80 % 2.50 % max 0.05 % max 0.045 % max 0.015 % max
Size 12-18 kg ingots without notches
Packing Bulk
BASIC PIG IRON
NODULAR PIG IRON
BASIC PIG IRON is used mainly in electric arc steelmaking.
NODULAR PIG IRON is used in the manufacture of ductile [also known as nodular or spheroidal graphite - SG] iron castings.
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FERRO ALLOYSFERRO ALLOYS
FERRO SILICON
Ferro Silicon is a universal “heat-blocker” used in the production of carbon and stainless steels.This additive is used with other ferro alloys in the deoxidising process of steel, as well as in the production of silicon itself.It is also used in the production of cast iron, as it can accelerate graphitisation. Ferro Silicon replaces the need for ferro manganese, spiegeleisen and calcium silicides in the manufacturing process.
Si Al C P S
FeSi 45 % 45 % min 2.0 % max 0.2 % max 0.04 % max 0.02 % max
FeSi 65 % 65 % min 2.0 % max 0.2 % max 0.04 % max 0.02 % max
FeSi 75 % 75 % min 1.5 % max 0.2 % max 0.04 % max 0.02 % maxFeSi 75 %Low Al 75 % min 1.0 % max 0.05 % max 0.04 % max 0.02 % max
FeSi 75 %High Purity 75 % min 0.1 % max 0.03 % max 0.04 % max 0.02 % max
Size 1-3 mm / 3-10 mm / 10-50 mm / 10-100 mm
Packing Bulk or 1 mt big-bag
FERRO SILICON
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FERRO ALLOYS FERRO ALLOYS
FERRO SILICO
Ferro Silico Manganese is used as a deoxidizer and an alloying element in steel.It can be used as a substitute for Ferro Silicon and Ferro Manganese when added to make different types of steel.
Ferro-manganese is used mainly in the steel industry for hardening and desulphurisation of steel and as a deoxidizer, making the slag more fluid.
Mn Si C P S
FeSiMn 6014 60 % min 14 % min 2 % max 0.30 % max 0.05 % max
FeSiMn 6517 65 % min 17 % min 2 % max 0.30 % max 0.05 % max
FeSiMn 7018 70 % min 17 % min 2 % max 0.30/0.50 % max 0.05 % max
Size 10-50 mm / 10-80 mm
Packing Bulk or 1 mt big-bag
FERRO SILICO MANGANESE
FERROMANGANESEFERRO MANGANESE
Mn C Si P S
FeMn HC 75 % min 6-8 % 1.5 % max 0.25 % max 0.03 % max
FeMn HCLow P 75 % min 6-8 % 1.5 % max 0.10 % max 0.03 % max
FeMn MC 80 % min 1.5 or 2.0 % max 1.5 % max 0.20 % max 0.03 % max
FeMn LC 80 % min 0.5 % max 0.5 % max 0.025 % max 0.03 % max
Size 1-3 mm / 3-10 mm / 10-50 mm / 10-100 mm
Packing Bulk or 1 mt big-bag
8
FERRO CHROME
FERRO ALLOYS
Cr C Si P S
FeCr HC-Charge CR 55-60 % 6-8 % 3.0 % max 0.03 % max 0.04 % max
FeCr HC 60-65 % 6-8 % 1.5 % max 0.02 % max 0.02 % max
FeCr MC 60-65 % 0.5/1.0 % max 1.0 % max 0.03 % max 0.03 % max
FeCr LC 65-70 % 0.10/0.25 % max 1.0 % max 0.03 % max 0.03 % max
FeCr LC high purity 65-70 % 0.03/0.06 % max 1.0 % max 0.03 % max 0.03 % max
Size 4-10 mm / 10-50 mm / 10-80 mm / 10-100 mm
Packing Bulk or 1 mt big-bag
Ferro phosphorus is used mainly as the additives in the foundry industry to improve the floatability of foundry iron, thus improving the quality of the castings. Phosphorus content can increase the wearing resistance and improve the cutability in the castings. Ferro phosphorus is also used as additive in the steel production, which can improve the corrosion resistivity in certain steel products.
Ferro-chrome is added to steel to impart properties of hardness, strength and to make it stainless. High Carbon Ferro Chrome is most commonly used in specialist applications such as engineering steels. Low-carbon Ferro-Chrome is used during steel production to correct chrome percentages. It is also a low cost alternative to metallic chrome for uses in super alloys and other special melting applications.
FERRO CHROME
FERROPHOSPHORUSFERRO PHOSPHORUS
P Si C S Cu V
FeP 23-28 % 1-2 % 0.1 % max 0.01 % max 0.5 % max 0.5 % max
Size 10-50 mm / 10-100 mm
Packing 1 mt big-bag
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FERRO ALLOYS
FERRO SILICO MAGNESIUM
FERRO ALLOYS
Mg Si Ca TRE Ce Ba Al
GLOMAG R6-10 5.50 - 6.50 % 42.0 - 48.0 % 0.80 - 1.20 % 0.80 - 1.20 % 1.00 % max
GLOMAG R7-10 MCa 6.20 - 6.80 % 43.0 - 48.0 % 3.00 - 3.50 % 0.95 - 1.05 % 0.50 - 1.00 %
GLOMAG R6-MCa 5.50 - 7.00 % 44.0 - 50.0 % 1.50 - 2.50 % 0.80 - 1.20 % 1.00 % max.
GLOMAG R6-10 LoAl 5.50 - 7.00 % 42.0 - 48.0 % 0.80 - 1.20 % 0.80 - 1.20 % 0.50 % max.
GLOMAG R5-12 Ba 5.30 - 5.80 % 43.0 - 48.0 % 0.80 - 1.20 % 1.15 - 1.35 % 0.55 - 0.85 % 0.15 - 0.25 % 0.40-0.60 %
GLOMAG R 6-8 5.50 - 6.50 % 44.0 - 48.0 % 0.60 - 1.20 % 0.50 - 0.80 % 1.00 % max
GLOMAG R5-5 MCa 5.20 - 5.70 % 44.0 - 48.0 % 1.80 - 2.20 % 0.35 - 0.65 % 0.40 - 1.00 %
GLOMAG R6 MCa3 6.20 - 6.80 % 43.0 - 48.0 % 3.00 - 3.50 % 0.90 - 1.10 % 0.50 - 1.00 %
Size 1-10mm / 2-20 mm / 3-25 mm / and as per customers requirements
Packing appr. 1 mt big-bag
Ferro Silicon Magnesium is one of the best nodularizers due to its low levels of magnesium oxide and high nodularization .This material is used to modify the graphite flakes in the iron making process.
FERRO SILICO MAGNESIUM
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NOBLE ALLOYS
FERRO MOLYBDENUM
FERRO BORON
NOBLE ALLOYSTi 40 or 70 % minAl 0.5 or 4.5 % maxV 3 % maxN 0.2 or 0.5 % maxS 0.03 % maxP 0.04 % maxC 0.20 % maxMn 1.5 % maxSize 10-50 mm / 10-100 mmPacking 1 mt big-bag / steel drums
Nb 63 / 65 % min
Al 2 / 3 % max
Si 2.5 / 3 % max
C 0.3 % max
P 0.2 % max
Size 5-30 mm / 10-50 mm
Packing 1 mt big-bag / steel drums
Mo 60 / 65 % minCu 0.5 % maxSi 1.5 % maxS 0.1 % maxC 0.1 % maxP 0.05 % maxSize 10-50 mm / 10-100 mmPacking 1 mt big-bag / steel drums
B 15/18 % minSi 1.5 % maxAl 0.5 % maxC 0.5 % maxP 0.1 % maxS 0.01 % maxSize 10-50 mm Packing 1 mt big-bag
Ferro Molybdenum has hardening properties that makes steel extremely strong and at the same time weldable. Additionally, the adding of Ferro Molybdenum to an alloy can increase corrosion resistance. Ferro Molybdenum is used in stainless, heat-resisting and tool steels.
Ferro Niobium has anti-corrosive properties (better than carbon steel). The adding of Ferro Niobium to an alloy can make it more weldable and much stronger. The largest practical application of Ferro Niobium is in the alloying process of HSLA steel.
Ferro Titanium is used by stainless steel makers as a stabiliser to prevent chromium carbide forming at grain boundaries and in the production of low carbon steels for sheet production. Main applications for Ferro Titanium include: - Cleansing Agent: used for deoxidizing, desulfurization and denitrification. - Grain Refiner: improve malleability in carbon steels, thereby increasing its versatility.
Ferro Boron is used in the production of alloy steel and foundry iron as additives, which can improve the quenching degree and mechanical properties in carbon steel and alloys structural steel, the strength of heat-resistivity in heat-resistant steel and heat-resistant alloy steel.
FERRO TITANIUM
FERRO NIOBIUM
FERRO MOLYBDENUM
FERRO BORON
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NOBLE ALLOYS
FERRO VANADIUM
MOLY OXIDE
FERRO TUNGSTEN
NOBLE ALLOYSW 75 % minSi 0.5 % maxC 0.2 % maxMn 0.25 % maxCu 0.15 % maxS 0.08 % maxP 0.05 % maxAs 0.05 % maxSb 0.05 % maxSn 0.08 % maxPb 0.05 % maxBi 0.06 % maxSize 10-50 mm / 10-100 mmPacking 1 mt big-bag / steel drums
V 78-82 %Al 0.5 or 1.5 % maxSi 1.5 % maxC 0.1 or 0.25 % maxS 0.05 % maxP 0.05 % maxCu 0.1 % maxAs 0.05 % maxSize 5-50 mm / 10-50 mm / 10-80 mmPacking 1 mt big-bag / steel drums
GRADE
Chemical composition %
MoPb (%) S (%) P (%) C (%) Cu (%)
Max
YMo57 ≥ 57.00 0.2 (0.05) 0.10 0.05 0.10 0.50
YMo55 ≥ 55.00 0.2 (0.05) 0.10 0.05 0.10 0.50
YMo51 ≥ 51.00 0.2 (0.05) 0.10 0.05 0.10 0.50
Size 0-4 mm 90 % min
Packing In 200 / 250 kgs iron drums or big-bag on pallets
MOLYBDENUM METAL-BARMo 99.80 % min
W 0.20 % max
O2 0.50 % max
Size Bar / plate
Packing 1 mt bigbags / steel drums
MOLYBDENUM METAL-BRIQUETTESMo 99 % min
Size Briquette (1'X1'X3')
Packing in 300 kgs boxes
The main uses for MoOx are as direct addition to steel produced in the electric arc furnace or to smelt into Molybdenum for further addition to the steel melt.
When added to crude steel, ferrovanadium creates a product that is lightweight and extremely high in tensile strength and wear resistance. The largest practical application of Ferro Vanadium is in the alloying process of any hardened steel.
Ferro Tungsten improves the hot hardenability, abrasion resistance and impact strength of steel, used in production of high-speed tool steel, alloy tool steel, heat-resistant steel, spring steel and magnetic steel.
Molybdenum is primarily used as an alloying agent in steel. When added to steel in concentrations between 0.25% and 8%, molybdenum forms very high strength steels. Molybdenum also improves the strength of steel at high temperatures. When alloyed with nickel molybdenum forms heat and corrosion resistant materials used in the chemical industry.
FERRO VANADIUM
MOLY OXIDE
FERRO TUNGSTEN
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RECARBURIZERSRECARBURIZERS/COKES
RECARBURIZERSF.C
(typical)S
(typical)N
(typical)Vol.
(typical)H
(typical)Size
(mm)
RANCO 9904 S 99.5 % 0.03 % 0.01 % 0.20 % 0.01 % 0.2-1 / 0.2-3 / 1-3
RANCO 9905 S 99.2 % 0.04 % 0.01 % 0.30 % 0.01 % 0.5-4 / 4-10
RANCO 9805 S 98.6 % 0.05 % 0.01 % 0.90 % 0.10 % 3-8
RANCO 9907 S 99.0 % 0.07 % 0.15 % 0.30 % 0.10 % 0.5-4 / 3-10
RANCO 9810 S 98.2 % 0.10 % 0.30 % 0.15 % 0.20 % 0.5-2
RANCO 9897 G 99.6 % 0.60 % 0.60 % 0.40 % 0.20 % 0.2-4
Packing Big-bags / Paper Bags wrapped on Pallets
RECARBURIZERS
The electric furnace production of cast iron often requires a recarburizing step because the process relies on inexpensive, relatively low carbon scrap as a starting material. High carbon scrap, high carbon ferroalloys or even pig iron are used as sources of carbon but when practice, specifications or economics dictate, specific recarburizers are needed. So recarburizer can be used in the casting, which can significantly increase the amount of scrap steel and reduce the consumption of pig iron or enable even not using of pig iron.
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RECARBURIZERS
METALLURGICAL COKE
FOUNDRY COKE
RECARBURIZERS/COKES
Ash Volatile S P F.C. Moisture M10 M40
MC-1 10.5 % max 1.5 % max 0.6 % max 0.035 % max 87 % max 5 % max 5 % max 80 % max
MC-2 11.0 % max 1.5 % max 0.6 % max 0.035 % max 86 % max 5 % max 8 % max 80 % max
MC-3 12.0 % max 1.5 % max 0.6 % max 0.035 % max 85 % max 5 % max 8 % max 80 % max
Size 40-90 mm
Packing Bulk or 1 mt big-bag
Ash Volatile S P F.C. Moisture M10 M40
FC-1 7 % max 1.5 % max 0.6 % max 0.025 % max 92 % max 5 % max 8 % max 82 % max
FC-2 8 % max 1.5 % max 0.6 % max 0.025 % max 88 % max 5 % max 8 % max 80 % max
FC-3 9 % max 1.5 % max 0.6 % max 0.025 % max 86 % max 5 % max 8 % max 80 % max
Size 90-150 mm / 90-200 mm
Packing Bulk or 1 mt big-bag
METALLURGICAL COKE
FOUNDRY COKE
Metallurgical coke is used as a fuel and as a reducing agent in smelting iron ore in a blast furnace. The product is cast iron and is too rich in dissolved carbon, and so must be treated further to make steel. Metallurgical coke is used where a high quality, tough, resilient, wearing carbon is required.
Foundry coke is produced using longer coking times than for blast furnace coke, often in dedicated facilities. The bulk of oven coke (sized about 40 to 100 millimetres) is used throughout the world in blast furnaces to make iron. Exceptionally large strong coke, known as foundry coke, is used in foundry cupolas to melt iron. Coke in 10- to 25-millimetre sizes is much used in the manufacture of phosphorus and calcium carbide.
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Si(% min)
Fe(% max)
Al(% max)
CA(% max)
P(PPM)
SiMet 1101 99.50 0.1 0.1 0.01 15-40SiMet 1501 99.20 0.15 0.15 0.01 20-40SiMet 2202 99.50 0.2 0.2 0.02 30-100SiMet 3303 99.00 0.3 0.3 0.03 40-100SiMet 3305 99.00 0.3 0.3 0.05 40-100SiMet 331 99.00 0.3 0.3 0.01 40-100SiMet 4405 99.00 0.4 0.4 0.05 40-100SiMet 441 99.00 0.4 0.4 0.1 40-100SiMet 553 98.50 0.5 0.5 0.3 40-100SiMet 775 97.00 0.7 0.7 0.5 40-100Size 2-25 mm / 10-100 mmPacking 1 mt big-bag
Co (% min)Co Ingots 99.30Co Cathodes 99.90Co Briquettes 99.80
Cu 0.0004 % max
Fe 0.0023 % max
Pb 0.0057 % max
Cd 0.0001 % max
Sb 0.0057 % max
Zn 0.0002 % max
Ag 0.0023 % maxNi 0.001 % maxCd 0.0001 % maxZn 0.0005 % maxS 0.0005 % maxOther Impurities 0.021 % max
METALS
Silicon is alloyed with aluminum for use in engines as the presence of silicon improves the metal’s castability. Silicon can enhance iron’s magnetic properties. It is also an important component of steel, which it toughens.
Cobalt has a variety of applications which include superalloys, corrosion resistant alloys, high speed tool steels, magnets, cemented carbides, pigments, rechargeable batteries and chemical catalysts.
Tin is used as a coating on the surface of other metals to prevent corrosion and provide low toxicity. Tin is also used in many alloys, most notably tin/lead soft solders, typically containing 60% or more of tin.
Lead is used to line tanks that store corrosive liquids and as a covering on some wires and cables to protect them from corrosion. Lead’s high density makes it useful as a shield against X-ray and gamma-ray radiation. Most of the lead is used in the production on lead-acid storage batteries.
COBALT
TIN
SILICON METAL
COBALT
TIN
SILICON METAL
Size 0.3-10 mmPacking 1 mt big-bag
Pb 99.89 % minSb 0.01 % maxSn 0.001 % maxAs 0.065 % maxCu 0.0018 % maxBi 0.021 % max
Sn 99.968 % min
Ag 0.0001 % max
Al 0.0001 % max
As 0.0044 % max
Bi 0.0002 % max
Cd 0.0001 % max
Co 0.0002 % maxSize ingots / bars
Packing on pallets
LEADLEAD
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METALSMAGNESIUM METAL
NICKEL
MANGANESE METAL
METALSMg 99.9 % minFe 0.04 % maxSi 0.02 % maxNi 0.002 % maxCu 0.01 % maxAl 0.02 % maxCl 0.05 % maxMo 0.03 % maxNa not stated % maxSize 7.5 ± 0.5 Kgs.Packing on pallets
Mn 99.7 % minC 0.04 % maxS 0.05 % maxP 0.005 % maxFe+Si+Se 0.205 % maxSize Flake/lump/briquttePacking in big-bags / steel drums
Ni 99.970 % minCo 0.00010 % maxC 0.00010 % maxS 0.00070 % maxFe 0.00600 % maxCu 0.00020 % maxZn 0.00005 % maxPb 0.00002 % maxSize 5-13 mm granules / 4x4 cm Cut Cathodes
Packing in 250 kg steel drums
The main applications of magnesium are, in order: component of aluminium alloys, in die-casting (alloyed with zinc), to remove sulfur in the production of iron and steel, the production of titanium in the Kroll process.
In fact, the single largest use of manganese today is in the creation of iron and steel alloys for building purposes. Manganese is essential to iron and steel production by virtue of its sulfur-fixing, deoxidizing, and alloying properties.
Two-thirds of all nickel produced goes into stainless steel, to promote a stable, ductile, austenitic structure as well as contribute to corrosion resistance.
MAGNESIUM METAL
NICKEL
MANGANESE METAL
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CORED WIRES
CORED WIRES
CORED WIRES
CaSi CaFe Al FeB C SCa 28-32 % 30 or 40 % ≥ 99 %
Al ≤ 2 % ≤ 3 %
P ≤ 0.05 % ≤ 0.03 %
S ≤ 0.05 % ≤ 0.01 % ≤ 0.5-0.9 % ≥ 98 %
Fe balance balance ≤ 0.5 % balance
Si 55-65 % ≤ 0.45 % ≤ 4 %
C ≤ 1 % ≤ 0.5 % ≥ 98 %
Cu ≤ 0.02 %
B 18-20 %
Ash ≤ 1.8 % ≤ 1.8 %
Humidity ≤ 0.1 % ≤ 0.1 %
Cored Wire Diameter Ø 9-13-16 mm
Coil Thickness 0.4+0.03 mm
Powder Density 230±10 g/m 240±10 g/m 300±10 g/m 540±10 g/m 150±10 g/m 180±10 g/m
Powder Weight per coil 0.5-1.2 mt
Coil Pay-Off Direction Horizontal / Vertical
Crushing the additives (deoxidant,desulfurizer,alloys) into certain granulation (in the form of powder), then,using the equipment to fill the powder into the “U” shaped sheath, which is made of high quality cold rolled steel strip, lastly, tightly closing the wire, so a multiple material(cored wire) with certain length will be obtained.
Calcium Silicon (CaSi) is a potent deoxidizer and desulfurizer utilized in the production of high grade steels. Calcium Silicon is used to control the shape, size and distribution of oxide and sulfide inclusions improving fluidity, machinability, ductility, and impact properties of the final product.
Calcium iron (CaFe) contributes greatly to deoxidation, desulfuration and impurity removing, it also helps increase the collecting rate of rare earth elements and other elements, enable the stability of the composition, reduce the usage amount of valuable mental elements.
CORED WIRES
17
CORED WIRES
D D
CORED WIRES
Other Cored Wires
1. FeTi
2. FeTi-70
3. FeSi
4. FeMn-65
5. FeMn-99
6. FeB-5.5
7. FeS
Packing Standart A
Wire Lenght per spool : 2100 m
Spool External Diameter : 1180 mm
Spool Internal Dia : 700 mm
Width : 600 mm
HI = Horizontal inside pay-off VI = Vertical inside pay-off
Packing Standart B
Wire Lenght per spool : 5000 m
Spool External Diameter : 1180 mm
Spool Internal Dia : 700 mm
Width : 1200 mm
Coil pay-off direction
Coil dimensions
18
ABRASIVES/SIC/CAC
STEEL GRITSTEEL GRIT
STAINLESS STEEL SHOTSTAINLESS STEEL SHOT
STEEL SHOTSTEEL SHOT
ABRASIVES/SILICON CARBIDE/CALCIUM CARBIDE
STAINLESS STEEL SHOT
mm EN 20 EN 30 EN 40 EN 50 EN 60 EN 1001.400 5 % max
1.180 5 % max
1.000 5 % max 90 % max
0.850 5 % max
0.710 5 % max
0.600 90 % max
0.500 5 % max
0.425 90 % max
0.355
0.300 5 % max
0.212
0.106 90 % max
0.075 90 % max
STEEL SHOTProduct Size
(mm) % : min & max cumulative percentages allowed on corresponding sieves
S780 2.0-2.8 0% 85 % min
97 % min
S660 1.7-2.4 0% 85 % min
97 % min
S550 1.4-2.0 0% 85 % min
97 % min
S460 1.2-1.7 0% 5 % max
85 % min
96 % min
S390 1.0-1.4 0% 5 % max
85 % min
96 % min
S330 0.85-1.2 0% 5 % max
85 % min
96 % min
S280 0.71-1.0 0% 5 % max
85 % min
96 % min
S230 0.6-0.85 0% 10 % max
85 % min
97 % min
S170 0.42-0.71 0% 10 % max
85 % min
97 % min
S110 0.3-0.5 0% 10 % max
80 % min
90 % min
S70 0.18-0.35 0% 10 % max
80 % min
90 % min
SAE Sieve No. 7 8 10 12 14 16 18 20 25 30 35 40 45 50 80 120
Aperture 2.80
2.36
2.00
1.70
1.40
1.18
1.00
0.85
0.71
0.60
0.50
1.42
5
1.35
5
0.30
0.18
1.12
5
STEEL GRITProduct Size (mm) % : min & max cumulative percentages allowed on corresponding sieves
G12 1.7-2.4 0% 80 % min
90 % min
G14 1.4-2.0 0% 80 % min
90 % min
G16 1.2-1.7 0% 75 % min
85 % min
G18 1.0-1.4 0% 75 % min
85 % min
G25 0.71-1.2 0% 70 % min
80 % min
G40 0.42-1.0 0% 70 % min
80 % min
G50 0.3-0.71 0% 65 % min
75 % min
G80 0.18-0.42 0% 65 % min
75 % min
SAE Sieve No. 7 8 10 12 14 16 18 20 25 30 35 40 45 50 80 120
Aperture 2.80
2.36
2.00
1.70
1.40
1.18
1.00
0.85
0.71
0.60
0.50
1.42
5
1.35
5
0.30
0.18
1.12
5
Steel abrasives are steel particles that are used as abrasive or peening media. They are usually available in two different shapes (shot and grit) that address different industrial applications.Steel shot refers to spherical grains made of molten steel through an atomization (“granulation”) process, available in different sizes and hardnesses.
Steel grit characterizes grains with a predominantly angular shape. These grains are obtained by crushing steel shot, therefore they exhibit sharp edges and broken sections. Harder than steel shot, it is also available in different sizes and hardnesses.
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ABRASIVES/SIC/CACSTEEL SHOT/STEEL GRIT/STAINLESS STEEL SHOT/SiC BRIQUETTE/ SiC POWDER/CaC2
SILICON CARBIDE (BRIQUETTE)
SiC SiO2 CaO Al2O3 C Si from SiC C free from SiC
Extra 70 % min 22.5 % 0.5 % 1.5 % 50 % 21 %
Normal 50 % min 25 % 13.5 % 0.5 % 1.5 % 35 % 15 %
Special 70 % min 9 % 13.5 % 0.5 % 1.5 % 50 % 21 %
Size 10 x 10 x 11 cm or hexagonal 9 x 10 cmPacking 1 mt big-bag
STEEL SHOT / STEEL GRIT / STAINLESS STEEL SHOTC Si Mn S P Ni Cr
LC Steel Shot 0.1 0 - 0.15 % 0.1 0 - 0.25 % 0.1 0 - 0.25 % 0.035 % max 0.035 % max
HC Steel Shot / Grit 0.25 - 1.20 % 0.40 % min 0.60 - 1.20 % 0.05 % max 0.045 % max
Stainless Steel Shot 0.25 % max 3.0 % max 2.0 % max 6 - 10 % 16 - 20 %
SILICON CARBIDE (POWDER)SiC Fe C H2O C
Extra 88.0 - 92.0 % min 0.5 % max 3.0 % max 1.0 % max 1.5 %Size 1 - 10 mmPacking 1 mt big-bag
Silicon carbide is used for the de-oxidation and re-carburation of cast iron and steel in foundries. Metallurgical grade Silicon Carbide grain is a unique material for use in the production of iron and steel. It is used in the foundry industry for electric furnace production of gray, ductile, and malleable iron. It is an excellent source of carbon and silicon, promoting nucleation and rendering the iron more responsive to inoculation, deoxidizing the iron, which enhances furnace lining life.
CALCIUM CARBIDE
Size Low Size(mm) % Max.
Over Size(mm) % Max.
Yield (Lt/Kg) Min.
C2Ca % Min.
50 - 80 mm 5 5 291 77
25 - 50 mm 5 5 291 77
7 - 15 mm 5 5 252 67
Specifications CaC2 : 77% min.
pH3 110 ppm max. (DIN 53922)
Origin South Africa / Argentina
PackingIn net 55/100/120 kgs, airtight and pneumatically sealed steel drums on pallets or 100 kg steel
drums on pallets.
The main application of calcium carbide is when reacting with water to generate acetylene gas. Carbide is used as a desulphurising agent in the metallurgical industry to remove sulphur from the iron before it is converted in the BOF (Basic Oxygen Furnace). Carbide is also used for FeO and MnO deoxidation in the steel industry.
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INOCULANTS/RESINS
INOCULANTSINOCULANTS
INOCULANTS/RESINS
Si Ca Al Ba Bi TRE Mg Sr TRE C F Size (mm)
GLO 75 - Bi69.0-
75.0 % 1.75-
2.25 %0.75-
1.25 %0.40-
0.60 %0.40-
0.60 %0.15-
0.35 %4.4-9.5 / 0.6-4 / 0.2-0.6
and as per customers requirements
GLO 75 - 173.0-
78.0 %0.60-
1.20 %0.60-
1.00 %0.75-
1.30 %0.6-4 / 0.2-0.8 / 0.15-2.4
and as per customers requirements
GLO 75 - 2 TRE69.0-
75.0 % 0.50-
1.25 %0.50-
1.25 %1.70-
2.50 %
1.7-9.5 / 0.23-9.5 / 0.6-4 / 0.2-0.8
/ 0.15-0.8
and as per customers requirements
GLO SLC - 7 (Ladle Sizes)
72.0-77.0 %
0.10 % max
0.50 % max
0.60-1.00 %
1.7-9.5 / 0.6-4 / 0.23-9.5
and as per customers requirements
GLO SLC - 7 (Stream Sizes)
63.0-77.0 %
0.25 % max
0.50 % max
0.60-1.50 %
0.2-0.8 / 0.15-0.8
and as per customers requirements
GLO SB - 272.0-
77.0 %0.75-
1.25 %0.80-
1.20 %1.75-
2.25 %
1.7-9.5 / 0.23-9.5 / 0.6-4 / 0.21-0.8
/ 0.15-0.8
and as per customers requirements
GLO 75 - 11270.0-
77.0 %0.50-
1.50 %3.00-
5.00 %0.6-4 / 0.15-2.4
and as per customers requirements
GLODEOX35.0-
40.0 %5.00-
6.50 %4.00-
5.00 %0.50-
2.10 %9.00-
11.00 %4.25-
5.50 %0.15-2.4
and as per customers requirements
FESI BA70.0-
75.0 %1.00-
2.00 %1.00-
2.00 %1.00-
2.00 %0.2-0.7 / 1-3 / 2-6
and as per customers requirements
Packing 500 lb. steel drum / 2 - 3,000 lb. super sack or wooden box / Customer specific packaging where required
By correct inoculation of cast irons the formation of chill can be prevented and gas related porosity and its shrinkage to a great extent can be controlled and minimized. Inoculants are specially designed FeSi based alloys to control the microstructure and mechanical properties of cast irons.
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INOCULANTS/RESINSINOCULANTS/RESINS
NO BAKE PROCESS• Alp Haset Resins (Phenolic Ester Cured System)• Furan and Phenolic Resins (Acid Cured System)
GAS CURED PROCESS• Sigmacure Cold Box Resins (Amine Cured System)• Betaset Cold Box Resins (MF Cured System)• Alkafen Resins (CO2 Cured System)
HOT BOX RESINS
THERMOSHOCK RESINS
EXOTHERMIC MATERIALS• Insulating Sleeves• Exothermic Sleeves• Highly Exothermic Sleeves• Highly Exothermic Mini Sleeves• Feeding Compounds• Mouldable Exothermic Compounds
MOULD AND CORE COATINGS
ADHESIVES
COATED SANDS
INDUSTRIAL RESINS
RESINSRESINS
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REFRACTORIES• Magnesia Bricks• Magnesia Chrome Bricks• Direct Bonded Magnesia Chrome Bricks• Magnesia Carbon Bricks • Basic Mortars• Basic Ramming Masses• Basic Gunning Masses• Basic Spraying Masses• Basic Fetling Masses
BASIC
• Dolomite Bricks• Dolomite Monolithics
DOLOMITE
• Fireclay & High Alumina Bricks• Fireclay & High Alumina Ceramic Setting Mortars • Fireclay & High Alumina Plastic Masses• Fireclay & High Alumina Castables• Insulating Castables • Low Cement High Alumina Castables • Coke Oven Gunning Mixes • Coke Oven Spraying Mixes • Ultra Low Cement Castables• Conventional Dense Castables• Insulating Castables
FIRECLAY & HIGH ALUMINA
• Silica Bricks• Silica Mortars• Silica Ramming Masses
SILICA
• Slide Gate Refractories• Gus Purging Refractories• Tundish Refractories • Flow Control Monolithics
FLOW CONTROL
• Silicon Carbide Bricks• Zircon Bricks
SPECIAL REFRACTORIES
REFRACTORIES/MINERALS
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REFRACTORIES
• MAGNESITE: - Dead Burned Magnesite - Fused Magnesite
• GRAPHITE: - Natural Flake Graphite - Amorphous Graphite
• SPINELS: - Sintered Alumina-Magnesia Spinel - Fused Alumina- Magnesia Spinel
• SILICON CARBIDE
• ALUMINA: - Rotary Kiln Bauxite - Shaft Kiln Bauxite - White Fused Alumina - Brown Fused Alumina - Sintered Mullite
• ALUMINA-SILICATE: - Flint Clay
• CHROMITE SAND (Refractory Grade)
• KAOLIN
REFRACTORY RAW MATERIALS
REFRACTORIES/MINERALS
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