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Carbographite Industrial PTE.LTD
Model No.: HP400
Brand: CG
Type: Graphite Electrodes
Grade: Industrial Grade
Nipple Resistance: 3.5-4.0 UΩm
Electrode Resistance: 5.8-6.6 UΩm
Electrode Modulus Of Rupture: 10.0-13.0 Mpa
Nipple Modulus Of Rupture: 23.0-23.0 Mpa
Electrode Bulk Density: 1.64-1.68 G/cm3
Nipple Bulk Density: 1.75-1.80 G/cm3
Electrode CTE (100-600℃): 1.6-1.9 10-6/℃
Nipple CTE (100-600℃): 1.1-1.4 10-6/℃
Packaging: Wooden cases with steel strips or according to customer's reqirement
Productivity: 30000MT per annum
Transportation: Ocean,Land,Air
Place of Origin: China
Supply Ability: 3000 tons each month
Certificate: SGS
HS Code: 8545110000
Port: Tianjin,Qingdao,Lianyungang
Payment Type: L/C,T/T,Paypal,Money Gram,Western Union
Incoterm: FOB,CFR,CIF,EXW
Delivery Time: 15 Days
1.Carbo Graphite holds itself to the highest quality standards that control everything from incoming raw materials to final factory production. All materials are tested to ensure they meet industry standards before entering the manufacturing phase.
Carbo Graphite owns complete production lines, including raw material mixing, kneading, forming, baking, impregnation equipment, graphitization, machining and shaping, etc.
We provide the full range products all along, including UHP, HP and RP grade graphite electrodes.
2. Graphite Electrode – High Mechanical Strength & Machining Accuracy
Graphite Electrodes, with high electrical conductivity and low electrical resistance, are the key consumables for EAF steelmaking.
3. WHAT IS graphite electrode ?
Graphite electrode, a conductor that releases electric energy in the form of an electric arc, is used to heat and melt the steel scraps in an electric arc furnace. They are currently the only products with high electrical conductivity and are able to maintain extremely high heat generation in this demanding environment. With the growing demand for quality steel in the aerospace, automotive and electronics industries, graphite electrodes are also becoming increasingly popular.
4. WHY GRAPHITE ELECTRODE?
Graphite material has better electrochemical stability. This type of electrode has low loss ratio.
Graphite electrode is easy to process and the processing speed is obviously faster than that of copper electrode.
Graphite is light in weight and has good thermal & electrical conductivity.
Graphite electrode, with above irreplaceable performance advantages, plays an indispensable role in the high temperature manufacturing field such as iron and steel smelting, electrolytic aluminum, ferroalloy, Calcium Carbide, industrial silicon and yellow phosphorus smelting.
5. CLASSIFICATION OF GRAPHITE ELECTRODES
According to the electric furnace capacity, transformer power load, the difference of raw materials used in the electrodes production and the physical & chemical indexes of finished electrodes, the graphite electrodes are divided into three types:
UHP Graphite Electrode .
It is made of high-grade needle coke and treated with Lengthwise Graphitization (LWG). The graphitization temperature can be up to 2800 °C – 3000 °C. Finished products have lower electrical resistance & linear expansion, good thermal shock resistance and allow a larger current density.
It adopts quality Petroleum Coke or low grade needle coke as raw material. Its physical and mechanical properties are higher than RP Graphite Electrode such as lower electrical resistance and allowing a greater current density.
Ordinary grade petroleum coke is adopted for production. This type of graphite electrode is treated with low graphitization temperature. The allowable current density is lower than Hp Graphite Electrode's. Regular power graphite electrodes are specified with allowable current density less than 17 A/cm2.
6. MAIN APPLICATIONS
EAF STEELMAKING.
EAF steelmaking is the main application field of graphite electrode. The output of electric arc furnace steel in China accounts for about 18% of crude steel. 70% – 80% of consumption of the graphite electrode are used in EAF steelmaking. In EAF steelmaking, the graphite electrode is used to conduct electric current into the furnace. And the high temperature heat source for smelting is generated by arcing between the electrode and steel scraps.
SUBMERGED ARC FURNACE
Submerged arc furnace is mainly used in the production of industrial yellow phosphorus and silicon. It is required to use a graphite electrode for a submerged electric furnace with a high current density. It takes about 100 kg of graphite electrode to produce 1 t of silicon, and about 40 kg of graphite electrode to produce 1 t of yellow phosphorus.
LF (LADLE FURNACE)
The ladle furnace is set up in the EAF steelmaking plant. After the slag is mixed out, ladle furnace is used to complete the task of further reduction and refining. Commonly, graphite electrodes are used for three-phase AC ladle furnaces.
7. MAIN FACTORS AFFECTING GRAPHITE ELECTRODE CONSUMPTION IN EAF STEELMAKING
The top reasons of loss and consumption of graphite electrodes are overload and timeout operation.
Low quality or improper proportion of scrap leads to poor slagging effect and prolong smelting time.
The increased feeding times lead to higher probability of electrode bottom damage and fracture.
Electric furnace power supply equipment does not match the electrode specifications.
The selection of power curve & gear, the voltage & current control of starting and stabilizing arcs, the use of long, medium and short arcs and the configuration of water cooling system are important to the service life and consumption of electrodes.
The quality of the graphite electrode itself affects the consumption ratio. Nowadays, the smelting and process of electric arc furnaces have higher requirements on the anti-oxidation performance and thermal shock resistance of graphite electrodes. Moreover, the high consumption caused by fluctuations in quality is greatly concerned by users. Therefore, the homogeneity and stability of graphite electrode are the most important factors to determine the consumption.
8.Produts Inspecification:
Properties UHP HP RP Φ300-φ500 Φ550-φ800 Φ300-φ800 Φ300-φ800 Resistivity (uΩm max) Electrode 4.8-5.8 4.6-5.8 5.8-6.6 7.0-10.0 Nipple 3.5-4.0 3.5-4.0 3.5-4.0 4.0-4.5 Modulus of rupture (Mpa) Electrode 10.0-14.0 10.0-14.0 10.0-13.0 8.0-10.0 Nipple 20.0-24.0 22.0-26.0 20.0-23.0 19.0-22.0 Young's modulus(Gpa) Electrode 9.0-13.0 10.0-14.0 8.0-12.0 7.0-9.3 Nipple 15.0-18.0 16.0-19.0 14.0-16.0 12.0-14.0 Bulk Density (g/cm³)min Electrode 1.68-1.74 1.70-1.74 1.64-1.68 1.53-1.56 Nipple 1.78-1.82 1.80-1.84 1.75-1.80 1.70-1.74 CTE (100-600℃)max Electrode 1.1-1.4 1.1-1.4 1.6-1.9 2.2-2.6 Nipple 0.9-1.2 0.9-1.2 1.1-1.4 2.0-2.5 Ash (%) 0.3 0.5
Current load and current density:
| Diameter(mm) | RP | HP | UHP | |||
|
| Current load(A) | Current density(A/cm3) | Current load(A) | Current density(A/cm3) | Current load(A) | Current density(A/cm3) |
| 200 | 5000-6900 | 15-21 | 5500-9000 | 18-25 |
|
|
| 225 | 6100-8600 | 15-21 | 6500-10000 | 18-25 |
|
|
| 250 | 7000-10000 | 14-20 | 8000-13000 | 18-25 | 8100-12200 | 20-30 |
| 300 | 10000-13000 | 14-18 | 13000-17400 | 17-24 | 15000-22000 | 20-30 |
| 350 | 13500-18000 | 14-18 | 17400-24000 | 17-24 | 20000-30000 | 20-30 |
| 400 | 18000-23500 | 14-18 | 21000-31000 | 16-24 | 25000-40000 | 19-30 |
| 450 | 22000-27000 | 13-17 | 25000-40000 | 15-24 | 32000-45000 | 19-27 |
| 500 | 25000-32000 | 13-16 | 30000-48000 | 15-24 | 38000-55000 | 18-27 |
| 550 | 32000-40000 | 13-16 | 37000-57000 | 15-23 | 42000-66000 | 17-26 |
| 600 | 38000-47000 | 13-16 | 44000-67000 | 15-23 | 49000-76000 | 17-26 |
Nipple Size and Nipple Range (4 buckles)
| Nominal diameter(mm) | Nipple type | Nipple socket average diameter(mm) | Nipple max diameter(mm) | Nipple length(mm) | Nipple socket depth(mm) | Buckle length(mm) |
| D4 | D1 | L1 | L2 | L3 | ||
| 800 | 432T4L | 428.64 | 431.80 | 635.00 | 323.50 | 319.50 |
| 750 | 406T4L | 403.24 | 406.40 | 609.60 | 310.80 | 306.80 |
| 750 | 406T4N | 403.24 | 406.40 | 584.20 | 298.10 | 294.10 |
| 700 | 374T4L | 371.49 | 374.65 | 558.80 | 285.40 | 281.10 |
| 700 | 374T4N | 371.49 | 374.65 | 457.20 | 234.60 | 230.60 |
| 650 | 355T4L | 352.44 | 355.60 | 558.80 | 285.40 | 281.40 |
| 650 | 355T4N | 352.44 | 355.60 | 457.20 | 234.60 | 230.60 |
| 600 | 317T4L | 314.34 | 317.50 | 457.20 | 234.60 | 230.60 |
| 600 | 317T4N | 314.34 | 317.50 | 355.60 | 183.80 | 179.80 |
| 550 | 298T4L | 295.29 | 298.45 | 457.20 | 234.60 | 230.60 |
| 550 | 298T4N | 295.29 | 298.45 | 355.60 | 183.80 | 179.80 |
| 500 | 269T4L | 266.72 | 269.88 | 457.20 | 234.60 | 230.60 |
| 500 | 269T4N | 266.72 | 269.88 | 355.60 | 183.80 | 179.80 |
| 450 | 241T4L | 238.14 | 241.30 | 355.60 | 183.80 | 179.80 |
| 450 | 241T4N | 238.14 | 241.30 | 304.80 | 158.40 | 154.40 |
| 400 | 222T4L | 219.09 | 222.25 | 355.60 | 183.80 | 179.80 |
| 400 | 222T4N | 219.09 | 222.25 | 304.80 | 158.40 | 154.40 |
| 350 | 203T4L | 200 04 | 203.20 | 304.80 | 158.40 | 154.40 |
| 350 | 203T4N | 200.04 | 203.20 | 254.00 | 133.00 | 129.00 |
| 300 | 177T4N | 174.64 | 177.80 | 215.90 | 114.00 | 110.00 |
9. Shipment
10. Customer Show
Product Categories : HP Graphite Electrode > HP 400 Graphite Electrode
