Takes electrical energy as its primary power source, utilizing arc discharge between graphite electrodes and furnace materials to generate temperatures spanning 2000℃ to 6000℃. This wide temperature range enables it to handle smelting tasks involving metals and alloys with varying melting points, from common steels to high-temperature-resistant materials.
Features a unique heat utilization structure where the high-temperature heat source is fully enclosed by the furnace charge during smelting. This design significantly reduces heat loss from high-temperature exhaust gases, resulting in thermal efficiency that far surpasses that of converters and other conventional steelmaking equipment, thereby cutting down on energy consumption.
Equipped with a sophisticated furnace atmosphere regulation system, it allows operators to flexibly adjust the proportions of oxidizing, reducing, or inert gases inside the furnace. This capability is particularly advantageous for smelting steel grades rich in easily oxidizable elements (such as titanium, aluminum, and chromium), effectively preventing element loss and expanding the range of producible steel types.
Specializes in the production of various special steels, including tool steel (for cutting tools and molds), electrical steel (for transformers and motors), and heat-resistant steel (for high-temperature equipment). Its ability to meet the specific performance requirements of different industries makes it a versatile equipment choice for special steel production.
