rp ordinary power graphite electrode
The difference between high power rp ordinary power graphite electrode and ultra-high power rp ordinary power graphite electrode
The difference between high power rp ordinary power graphite electrode and ultra high power rp ordinary power graphite electrode difference between high power rp ordinary power graphite electrode and ultra high power rp ordinary power graphite electrode The difference between ordinary power graphite electrode is:
Graphite is mainly used
(1) Electric arc steelmaking furnace
(2) Electric arc furnace
(3) Resistance furnace used to prepare special-shaped graphite products
(4). The rp ordinary power graphite electrode blank can also be used to process various special shaped graphite products, such as crucibles, molds, containers and heaters.
Graphite has good characteristics, so our company mainly produces rp ordinary power graphite electrode, graphite products and graphite processed graphite foreign objects.
Our company’s products have reached national qualified products, and are well received by the majority of manufacturers and business partners. Here, we hope to build a business bridge with manufacturers from all walks of life. The difference between the high-power rp ordinary power graphite electrode of the submerged arc furnace and the ultra-high-power rp ordinary power graphite electrode is mainly used to produce industrial silicon and yellow phosphorus. Its characteristic is that the lower part of the conductive rp ordinary power graphite electrode is buried in the charge, an arc is formed in the charge layer, and the charge is heated by the heat generated by the charge’s own resistance, which requires ore with a higher current density. The heating furnace needs rp ordinary power graphite electrode. For example, rp ordinary power graphite electrode consumes about 100 kilograms per ton of silicon production, and about 40 kilograms per ton of yellow phosphorus production.
Oil-impregnated graphite. Graphite materials should be soaked in oil for dozens of hours before machining, so that the oil can penetrate into the graphite material, so that the fly ash will not fly out during the machining process, and a smooth surface can be obtained.