| Grade | Product | Weight of one item |
| Cathode copper M00k, M0k | 1000×500×6-12 mm | 40 kg |
| Note (packaging) | Country of origin (compliance) | |
| Bundle 500-1000 kg (+/-10%) | Ukraine |
| Parameter | Value |
| Density, kg/m³ | 8940 |
| Melting point, °С | 1083 |
| Boiling point, °С | 2595 |
| Coefficient of linear expansion, K⁻¹×10⁶ | 16.8 |
| Specific heat capacity at 20 °С, J/(kg·K) | 375 |
| Thermal conductivity at 20 °С, W/(m·K) | 385 |
| Specific electrical resistance, Ohm·mm²/m | 0.0171 |
| Modulus of normal elasticity E, MPa | 115000-125000 |
| Shear modulus G, MPa | 42000-46000 |
| Yield strength σ₀.₂, MPa | |
| deformed | 280-420 |
| annealed | 60–75 |
| Ultimate tensile strength σB, MPa | |
| deformed | 340–450 |
| annealed | 220–250 |
| Relative elongation δ, % | |
| deformed | 4–6 |
| annealed | 40–50 |
| Impact toughness KCU, MJ/m² | |
| deformed | 1 |
| annealed | 1.7 |
| Brinell hardness, HB | |
| deformed | 90–110 |
| annealed | 45 |
| Name | Grade (compliance) | Product |
| Copper-phosphorus alloy | MF9, MF10 | Ingot |
| Weight of one item | Note (packaging) | Country of origin |
| 12 kg | Europallet | Ukraine |
| Alloy Grade | Mass fraction, % | |
| Main components | ||
| P | Cu + P (not less than) | |
| MF10 | 9.5-11.0 | 99.8 |
| MF9 | 8.0-9.5 | 99.5 |
| Mass fraction, % | ||
| Impurities, not more than | ||
| Bi | Sb | Fe |
| 0.002 | 0.002 | — |
| 0.005 | 0.1 | 0.15 |
Additional Notes:
The alloys are produced in the form of tiles with overall dimensions (370±10)×(215±10)×(30±5) mm.
By agreement between the manufacturer and the consumer, it is permissible to manufacture alloys in the form of strips (ribbons) with a thickness from 0.3 mm to 1.2 mm and rods according to agreed sizes.
Product Specifications
| Name | Grade (compliance) | Note (packaging) |
| Copper Wire Rod | KM, KMb, KMor, MKLPS | Coil |
| Electrotechnical | ||
| KME-1, KME-2, KME-3, KME-4, KME-5, KME-6, KME-7 | ||
Dimensions and Tolerances
Nominal rod diameter, mm | Limit deviation from nominal diameter, mm | Nominal rod diameter, mm |
8 | ±0.4 | 16 |
9.5 | 18 | |
10 | 22 | |
11.4 | 23 | |
12.7 | ||
13 | ||
14 |
Electrotechnical copper wire rod of grades KME-1, KME-2, KME-3, KME-4, KME-5, KME-6, KME-7 is manufactured with a diameter from 8.0 mm to 18.0 mm.
Nominal diameters and their limit deviations must correspond to those specified in the table:
| Nominal diameter, mm | Limit deviation for diameter, mm |
| 8 | ±0.30 |
| 9.5 | |
| 12.7 | |
| 16 | |
| 18 |
Additives for hot-dip galvanizing baths
Weight: 130 g/tablet.
Dimensions: Diameter 4 cm, Height 3 cm.
Nickel Content: The tablet contains 100 g of nickel.
Composition: Co 0.080% C Cu
Packaging: 9.75 kg/box, 75 tablets per box.
Availability: Always in stock.
Significantly! reduces zinc consumption by 5% to 15% by weight.
Prevents the formation of excessive coating thickness.
Prevents the formation of dark gray deposits.
Smoother and brighter surface. Aesthetic appearance of the coating.
Better coating adhesion.
Lower nickel usage compared to zinc-nickel alloy ingots and nickel powder.
Nickel dissolves automatically in the zinc bath.
Reduces nickel content in zinc ash and dross, increasing the resale value of waste.
No special skills or tools required.
In the 1960s, it was discovered that using a small amount of nickel (0.05% – 0.07%) in hot-dip galvanizing baths can reduce the Sandelin effect. Adding nickel to the zinc bath influences the Sandelin effect and suppresses the increase in zinc coating thickness.
The highest zinc coating thickness is achieved when the silicon content in the steel is between 0.04% and 0.12%; this range is called the “Sandelin curve.”
From this graph, it is easy to see that in killed steel (silicon-killed), for example with a silicon content of 0.26%, the coating thickness increases in direct proportion to time, whereas in rimming (unkilled) steel, this increase occurs very slowly. Even after 2 minutes of immersion, the coating thickness in killed steel doubles.
The introduction of nickel tablets positively affects the structure, properties, and appearance of zinc coatings, guaranteed to reduce coating thickness without compromising its properties compared to traditional galvanizing technology.
Product Specifications
| Name | Grade (compliance) | Product |
| Nickel | N-1 | Cathode sheet |
| 1000×1000×6-12 mm | ||
| N-1u | Cathode squares | |
| 100×100×8-10 mm | ||
| Weight of one item | Note (packaging) | |
| 30-60 kg | Bundle 1500 kg (+/- 10%) | |
| 0.2 kg | Metal drum 250-500 kg (+/- 10%) | |
Physico-chemical and mechanical properties
| Parameter | Value |
| Density, kg/m³ | 8800 |
| Melting point, °С | 1453 |
| Boiling point, °С | 3000 |
| Coefficient of linear expansion, K⁻¹×10⁶ | 13.7 |
| Specific heat capacity at 20 °С, J/(kg·K) | 440 |
| Thermal conductivity at 20 °С, W/(m·K) | 92 |
| Specific electrical resistance, Ohm·mm²/m | 0.0724 |
| Modulus of normal elasticity E, MPa | 210000 |
| Shear modulus G, MPa | 76000 |
| Yield strength σ₀.₂, MPa | 120 |
| Ultimate tensile strength σB, MPa | 400 |
| Relative elongation δ, % | |
| deformed | 2–4 |
| annealed | 35–40 |
| Impact toughness of annealed nickel, kG/mm² | 18 |
| Brinell hardness HB, MPa | 800-900 |
Nickel is used in the production of stainless and other alloy steels, alloys, batteries, in the chemical industry and powder metallurgy, as anti-corrosion coatings (nickel plating), and as a catalyst for many chemical processes.
Product Specifications
| Name | Grade (compliance) | |
| Aluminum | AV97, AV91, AV87 | |
| Product | Weight of one item | Note (packaging) |
| Ingot Granule | 4, 20 kg | Europallet |
| Granule | 0.5-15 g |
Chemical Composition
| Grade | Mass fraction, % | |
| Al+Mg, not less than | including Mg, not more than | |
| AV91 | 91 | 3 |
| AV87 | 87 | 3 |
| AV97 | 97 | 0,1 |
| Mass fraction, % | ||
| Impurities, not more than | ||
| Cu | Zn | Si |
| 0 | 0 | 1 |
| 3 | 1 | 3 |
| 4 | 3 | 5 |
| Mass fraction, % | ||
| Impurities, not more than | ||
| Pb | Sn | Total |
| 0 | 0 | 3 |
| 0 | 0 | 9 |
| 0 | 0 | 13 |
Notes:
At the request of the consumer, the mass fraction of tin in aluminum may be not more than 0.03%; in this case, the letter “f” is added to the grade designation.
At the request of the consumer, the mass fraction of silicon in the AV91 grade alloy may be not more than 1.0%.
The standards in the “Total” column apply to the mass fractions of impurities specified in the table, as well as impurities of iron, manganese, and nickel.
Alloy:
1xxx – 1013, 1050, 1060, 1070, 1080, 1100, 1200
3xxx – 3003, 3004, 3005, 3104, 3105
5xxx – 5005, 5050
8xxx – 8011, 8011A
Thickness: 0.2 mm – 3 mm (0.008”–0.118”) Width: 750 mm – 1650 mm (29.528”–64.96”) Length: 1000 – 6000 mm (39.37”–236.22”) Weight: up to 10 tons
Alloy:
A7/A8 Length: 813 mm (32.008 inches)
Width: 197 mm (7.756 inches)
Height: 97 mm (3.819 inches)
Weight: 23 kg +/- 1.5 kg
Alloy:
1xxx – 1013, 1050, 1060, 1070, 1080, 1100, 1200
3xxx – 3003, 3004, 3005, 3104, 3105
5xxx – 5005, 5050
8xxx – 8011, 8011A
Thickness: 6 mm – 8 mm (0.236”–0.315”) Width: 1000 mm – 1700 mm (39.37”–66.929”) Weight: up to 10 tons
Alloy:
1xxx – 1013, 1050, 1060, 1070, 1080, 1100, 1200
3xxx – 3003, 3004, 3005, 3104, 3105
5xxx – 5005, 5050
8xxx – 8011, 8011A
Thickness: 0.2 mm – 3 mm (0.008”–0.118”) Thickness (strip): 0.2 mm – 2 mm (0.008”–0.079”) Width: 20 mm – 1650 mm (0.787”–64.96”) Weight: up to 10 tons
| Product Specifications | ||
| Name | Grade (compliance) | Product |
| Zinc Primary Alloys | TsAM4-1, TsAM4-1o, TsAM4-1v, TsA4o, TsA4, ZnAl4Cu3 (TsAM4-3) | Ingot |
| Weight of one item | Note (packaging) | Country of origin |
| 22-24 kg | Bundle 500-1000 kg (+/- 10%) | Ukraine |
| Chemical Composition | ||
| Alloy Grade | Mass fraction of main components, % | |
| Al | Cu | |
| ZnAl4A | 3.5 – 4.3 | – |
| TsA4o | 3.9 – 4.3 | – |
| TsA4 | 3.5 – 4.3 | – |
| ZnAl4Cu1A | 3.5 – 4.3 | 0.7 – 1.2 |
| TsAM4-1o | 3.9 – 4.3 | 0.7 – 1.2 |
| TsAM4-1 | 3.5 – 4.3 | 0.7 – 1.2 |
| ZnAl4Cu3A | 3.5 – 4.3 | 2.5 – 3.5 |
| ZnAl4Cu3 | 3.5 – 4.3 | 2.5 – 3.5 |
| TsAM4-1v | 3.5 – 4.3 | 0.6 – 1.2 |
| Mass fraction of impurities, not more than, % | ||
| Mg | Zn | Cu |
| 0.03 – 0.06 | Base | 0.03 |
| 0.03 – 0.06 | » | 0.03 |
| 0.03 – 0.06 | » | 0.03 |
| 0.03 – 0.06 | » | – |
| 0.03 – 0.06 | » | – |
| 0.03 – 0.06 | » | – |
| 0.03 – 0.06 | » | – |
| 0.03 – 0.06 | » | – |
| Not more than 0.1 | » | – |
| Mass fraction of impurities, not more than, % | ||
| Pb | Fe | Sn |
| 0.003 | 0.03 | 0.001 |
| 0.004 | 0.05 | 0.001 |
| 0.01 | 0.05 | 0.002 |
| 0.003 | 0.03 | 0.001 |
| 0.004 | 0.05 | 0.001 |
| 0.01 | 0.05 | 0.002 |
| 0.003 | 0.03 | 0.001 |
| 0.005 | 0.05 | 0.001 |
| 0.02 | 0.1 | 0.005 |
| Mass fraction of impurities, not more than, % | ||
| Cd | Si | |
| 0.002 | – | |
| 0.002 | 0.02 | |
| 0.005 | 0.02 | |
| 0.002 | – | |
| 0.002 | 0.02 | |
| 0.005 | 0.02 | |
| 0.002 | – | |
| 0.002 | – | |
| 0.015 | 0.03 | |
| Product Specifications | ||
| Name | Grade (compliance) | Product |
| Zinc Protectors | TsP1, TsP2, TsP3 | P-KOTs-5 |
| P-KOTs-10 | ||
| P-KOTs-15 | ||
| P-KOTs-18 | ||
| P-KOTs-36 | ||
| Weight of one item | Note (packaging) | Country of Origin |
| 5-36 kg | Bundles | Ukraine |
| Chemical Composition | ||
| Alloy Grade | Mass fraction of main components, % | |
| Mg | Al | |
| TsP1 | – | 0.4-0.6 |
| TsP2 | 0.1-0.3 | 0.5-0.7 |
| TsP3 | – | 0.2-0.6 |
| Impurities, %, not more than | ||
| Zn | Mn | Tl |
| Balance | – | – |
| 0.1-0.3 | – | |
| – | 0.005-0.1 | |
| Impurities, %, not more than | ||
| Fe | Cu | Pb |
| 0 | 0 | 0 |
| 0 | 0 | 0 |
| 0 | 0 | 0 |
| Note: The total mass fraction of impurities not listed in the table must not exceed 0.2%. | ||
| Product Specifications | ||
| Name | Grade | Product |
| Cast Tungsten Carbide | LKV-“3”-04, LKV-“3”-1, LKV-“3”-2, LKV-“3”-3, etc. | Powder |
| Chemical Composition | ||
| W, % | Bound C, % | Free C, % |
| 95.8 – 69.4 | 3.6 – 4.0 | ≤0.05 |
| Granulometric Composition (Particle Size) | ||
| Grade | Grain Size, mm | |
| LKV-“3”-04 | 0.04 – 0 | |
| LKV-“3”-1 | 0.1 – 0.04 | |
| LKV-“3”-2 | 0.16 – 0.1 | |
| LKV-“3”-3 | 0.28 – 0.16 | |
| LKV-“3”-4 | 0.4 – 0.28 | |
| LKV-“3”-6 | 0.63 – 0.4 | |
| LKV-“3”-10 | 1.0 – 0.6 | |
| LKV-“3”-16 | 1.6 – 1.0 | |
| LKV-“3”-25 | 2.5 – 1.6 | |
| Application Area Cast tungsten carbide (Relit) is used for hardfacing the working surfaces of parts operating under conditions of intense abrasive wear with moderate impact loads. Common applications include: Drill bits and drill pipe tool joints. Crowns. Augers (screws) for the production of briquettes for solid fuel boilers. Parts of blast furnace charging apparatus. Mining and soil-tillage tools. | ||
General Description Hard alloy mixtures are used for the production of hard alloy products; they serve as the base for manufacturing hard alloy plates (inserts) via sintering and pressing methods.
Depending on the content of tungsten, titanium, tantalum carbides, and cobalt, they are classified into three groups: Tungsten-Cobalt, Titanium-Tungsten-Cobalt, and Titanium-Tantalum-Tungsten.
Applications These mixtures are used for the production of hard alloy plates, tips, inserts, drawing dies, broaches, and other products.
| Chemical Composition | ||
| Grade | Mass fraction, % | |
| WC (Tungsten Carbide) | Co | |
| T5K10 | 85 | 9.0 – 9.5 |
| VK8 | 92 | 7.5 – 8.1 |
| Mass fraction, % | ||
| Ti | Oxygen, max | Total C |
| 4.7 – 5.3 | 0.5 | 6.0 – 6.4 |
| – | 0.5 | 5.30 – 5.65 |
| Mass fraction, % | ||
| Free C, max | Fe, max | |
| 0.2 | 0.4 | |
| 0.1 | 0.3 | |
Technical Description 7
| Parameter | Value |
| GOST | 3882-74 |
| Grade | T5K10, VK8 |
| Type | Hard alloy mixture (powder) |
| WC Content (Tungsten Carbide) | 85-92 % |
| Particle Size | 40-100 µm |
| Factory Packaging | 10 kg |
Nickel-Based Powders Powders PG-12N-01, PG-10N-01, PG-SR2, PG-SR3, PG-SR4, PGAN1 are nickel-based (Ni-Cr-B-Si-C-Fe system).
Properties: When sprayed, they exhibit a low coefficient of friction and high permissible operating temperature (up to 800°C).
Application: Used for resto ring parts made of carbon steels, corrosion-resistant steels, and cast iron.
Iron-Based Powders
PGZh powders (iron-based) are intended for strengthening parts of railway rolling stock and tracks, automatic coupler parts, buffer devices, mining equipment, construction, and agricultural machinery.
Bimetallic Powder Powder PT-NA-01 is bimetallic and exothermic, consisting of a mixture of nickel and aluminum.
Application: This powder is used as a bond coat (sublayer) onto which other powders meeting operational requirements are sprayed.
| Chemical Composition | ||
| Alloy Grade | C | B |
| PG-10N-01 | 0.6 – 1 | 2.8 – 3.4 |
| PG-12N-01 | 0.3 – 0.6 | 1.7 – 2.5 |
| PGAN1 | 0.9 | 02.Сер |
| PG-SR2 | 0.3 | |
| PG-SR3 | 0.4 – 0.7 | 02.02.2008 |
| PG-SR4 | 0.8 | 03.Тра |
| PT-NA-01 | – | – |
| PGZh14 | Січ.42 | Лют.25 |
| Si | Ni | |
| PG-10N-01 | 04.04.2005 | Base |
| PG-12N-01 | 1.2 – 3.2 | Base |
| PGAN1 | 02.Кві | Base |
| PG-SR2 | 2 | |
| PG-SR3 | 2.5 – 3.5 | Base |
| PG-SR4 | 4 | Base |
| PT-NA-01 | – | Base |
| PGZh14 | Лют.34 | 36.5 |
| Cr | Fe | |
| PG-10N-01 | 14 – 20 | 03.Кві |
| PG-12N-01 | Сер.14 | 1.2 – 1.3 |
| PGAN1 | 12.Тра | 04.Вер |
| PG-SR2 | 02.Тра | Base |
| PG-SR3 | 13.5 – 16.5 | 5 |
| PG-SR4 | 17.Тра | – |
| PT-NA-01 | – | – |
| PGZh14 | 16.0 | Base |
| Other elements | Hardness HRC | |
| PG-10N-01 | – | 55 – 62 |
| PG-12N-01 | – | 35 – 40 |
| PGAN1 | 5.2 Cu | 55.6 |
| PG-SR2 | 13.Тра | <37 |
| PG-SR3 | – | 48 – 52 |
| PG-SR4 | <55 | |
| PT-NA-01 | 4 – 5 Al | |
| PGZh14 | 4.87 Mo; 3.1 Cu | 45 |
| Parameter | Value |
| Delivery Form | Powder |
| Particle Size, µm | 40 – 100 |
| Factory Packaging | 3 kg |
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