Customization: | Available |
---|---|
Specifications: | UHP HP RP |
Actual Dia: | 200-700mm |
Suppliers with verified business licenses
Audited by an independent third-party inspection agency
Graphite Electrodes are a high-temperature resistant graphite conductive refractory material used in the metallurgical industry. Graphite Electrodes are made of petroleum coke, bituminous coke as aggregates, coal tar pitch as binders, after raw material calcination, crushing and milling, batching, kneading, moulding, roasting, impregnation, graphitization and machining, which are also known as artificial graphite electrodes in order to distinguish from natural graphite electrodes made of natural graphite.
> Be careful when transporting and pilling electrodes with a forklift and avoid a collision. One layer of goods at a time; notice the balance and alignment and avoid falling or breakage.
> When loading and unloading with a forklift, wire rope must be used and steel wrapping tape cannot be employed directly to fetch electrodes.
> Electrode should be stored in a clean and dry place. When pilling up outdoors, it should be covered with rain-proof tarpaulin and the number of piling layers ought not to exceed four.
> When using electrodes, special tools should be employed to cut the steel wrapping tape, and crane should not be adopted to avoid bursting.
> Steel-wire ball, metallic brush or emery cloth is not allowed for cleaning the electrode thread, but compressed air free of oil and water is available.
> Use revolved resilient hanger and put soft truss pad under the electrode joint to avoid breakage of the thread.
> Lift the electrode to the furnace by using a hoister with resilient hangers, and find out the centre and move slowly downwards, screw and tighten with a hoop.
> If the two poles of the two electrodes are untouched or touched in overpressure, this may cause a bad effect.
> In order to avoid electrode breakage put the large materials in the lower part and small materials in the upper part.
RP | HP | UHP |
Electrode: Bulk Density≥ 1.56g/cm3 Specific Resistivity≤ 8.5μm Bending Strength≥ 10.0MPa Elastic Modulus≤ 9.3GPa Thermal Expansion Coefficient≤ 2.7x10 -6/°C Ash≤ 0.5% Nipple: Bulk Density≥ 1.68g/cm3 Specific Resistivity≤ 7.0μm Bending Strength≥ 14.0MPa Elastic Modulus≤ 13.7GPa Thermal Expansion Coefficient≤ 2.5 x10 -6/°C Ash≤ 0.5% |
Electrode: Bulk Density≥ 1.65g/cm3 Specific Resistivity≤ 6.5μm Bending Strength≥ 12.0MPa Elastic Modulus≤ 10.0GPa Thermal Expansion Coefficient≤ 2.2x10 -6/°C Ash≤ 0.3% Nipple: Bulk Density≥ 1.74g/cm3 Specific Resistivity≤ 5.5μm Bending Strength≥ 16.0MPa Elastic Modulus≤ 14.0GPa Thermal Expansion Coefficient≤ 2.0 x10 -6/°C Ash≤ 0.3% |
Electrode: Bulk Density≥ 1.68g/cm3 Specific Resistivity≤ 5.8μm Bending Strength≥ 16.0MPa Elastic Modulus≤ 14.0GPa Thermal Expansion Coefficient≤ 1.9x10 -6/°C Ash≤ 0.2% Nipple: Bulk Density≥ 1.76g/cm3 Specific Resistivity≤ 4.5μm Bending Strength≥ 18.0MPa Elastic Modulus≤ 16.0GPa Thermal Expansion Coefficient≤ 1.4 x10 -6/°C Ash≤ 0.2% |
Actual diameters | Actual lengths | ||||||
Mm | Mm | MAX | MIN | Rough spot | Length | Tolerance | Shot Ruler size |
200 | 8 | 204 | 201 | 198 | 1600 | ±100 | -275 |
250 | 10 | 256 | 252 | 248 | 1600 1800 |
||
300 | 12 | 307 | 303 | 299 | |||
350 | 14 | 357 | 353 | 347 | |||
400 | 16 | 409 | 404 | 400 | 1600 1800 2000 |
||
450 | 18 | 460 | 455 | 451 | |||
500 | 20 | 511 | 506 | 502 | |||
600 | 24 | 613 | 607 | 604 | |||
780 | 31.2 | 782 | 776 | 774 | 2000 2200 2400 |
±100 | -400 |
800 | 32 | 802 | 796 | 794 | |||
870 | 34.8 | 872 | 866 | 862 | |||
900 | 36 | 902 | 896 | 892 | |||
920 | 36.8 | 922 | 916 | 912 | |||
960 | 38.4 | 962 | 956 | 952 | |||
1020 | 40.8 | 1022 | 1016 | 1012 | 2200 2600 2800 |
||
1060 | 42.4 | 1062 | 1056 | 1052 | |||
1100 | 44 | 1102 | 1092 | 1092 | |||
1146 | 45.8 | 1148 | 1140 | 1138 | |||
1197 | 47.9 | 1199 | 1191 | 1189 | |||
1250 | 50 | 1252 | 1244 | 1242 | |||
1272 | 50.9 | 1274 | 1266 | 1264 | |||
1305 | 54.4 | 1307 | 1299 | 1297 | |||
1321 | 52.8 | 1323 | 1315 | 1313 | |||
1400 | 56 | 1402 | 1394 | 1392 |