Graphite Electrodes Size/Weight Chart
| Name | Pole diameter | Pole length | Pole weight (reference value) | |||
|---|---|---|---|---|---|---|
| Diameter x length | Maximum | Minimum | Maximum | Minimum | Pole product weight (excluding nipple) | |
| inch | mm | mm | mm | mm | mm | kg |
| 14×60 | 350×1500 | 357 | 352 | 1550 | 1400 | 253 |
| 14×72 | 350×1800 | 1875 | 1700; | 304 | ||
| 14×96 | 350×2400 | 2475 | 2275 | 406 | ||
| 16×60 | 400×1500 | 409 | 403 | 1550 | 1400 | 334 |
| 16×72 | 400×1800 | 1875 | 1700 | 395 | ||
| 16×96 | 400×2400 | 2475 | 2275 | 532 | ||
| 18×72 | 450×1800 | 460 | 454 | 1875 | 1700 | 496 |
| 18×96 | 450×2400 | 2475 | 2275 | 665 | ||
| 18×110 | 450×2700 | 2850 | 2550 | 766 | ||
| 20×72 | 500×1800 | 511 | 505 | 1875 | 1700 | 614 |
| 20×84 | 500×2100 | 2175 | 1975 | 715 | ||
| 20×96 | 500×2400 | 2475 | 2275 | 824 | ||
| 20×110 | 500×2700 | 2850 | 2550 | 927 | ||
| 22×84 | 550×2100 | 562 | 556 | 2175 | 1975 | 873 |
| 22×96 | 550×2400 | 2475 | 2275 | 995 | ||
| 24×84 | 600×2100 | 613 | 607 | 2175 | 1975 | 1040 |
| 24×96 | 600×2400 | 2475 | 2275 | 1190 | ||
| 24×110 | 600×2700 | 2850 | 2550 | 1340 | ||
| 26×110 | 650×2700 | 663 | 657 | 2850 | 2550 | 1580 |
| 28×110 | 700×2700 | 714 | 708 | 2850 | 2550 | 1830 |
| 30×110 | 750×2700 | 765 | 759 | 2850 | 2550 | 2060 |
| 32×110 | 800×2700 | 816 | 810 | 2850 | 2550 | 2450 |
Why are High Quality Graphite Electrodes essential for industrial use, and how do they contribute to operational success?
High Quality Graphite Electrodes are fundamental components in a wide range of industrial applications, particularly in industries that require high-temperature processes such as steelmaking, silicon production, and non-ferrous metal smelting. These electrodes serve as conductors of electricity in electric arc furnaces (EAFs) and other high-energy systems, where they generate the intense heat needed to melt and refine raw materials.
What sets high-quality graphite electrodes apart is their superior electrical conductivity, excellent thermal resistance, and outstanding mechanical strength, all of which are achieved through the use of high-purity raw materials and precision manufacturing techniques. These properties ensure that the electrodes can withstand extreme operating conditions-temperatures exceeding 3,000°C and high electrical currents-without degrading, cracking, or causing process interruptions. By using high-quality graphite electrodes, industries can achieve greater energy efficiency, reduce power consumption, and minimize electrode wear, all of which contribute to lower operational costs and improved productivity.
Their durability also leads to fewer replacements and less downtime, which is crucial in continuous production environments. Moreover, high-quality electrodes help maintain consistent arc stability, resulting in uniform melting and higher-quality end products. In addition to performance benefits, their reliable operation enhances workplace safety and supports sustainability goals by reducing material waste and energy loss. In essence, high-quality graphite electrodes are not just consumables but strategic assets that drive operational success, improve product quality, and ensure the long-term efficiency of industrial operations.
Hot Tags: high quality graphite electrodes for industrial use, China high quality graphite electrodes for industrial use manufacturers, suppliers, factory










