For a steel plant, it is important to calculate that what induction furnace capacity is suitable for the current production. However, deciding the capacity of an induction furnace for a steel plant is complex work. It depends on various factors, including the quantity and quality of the scrap metal being melted, the desired output or productivity of the plant, and the available power supply.
Induction furnace capacity can vary depending on several factors, such as the type of metal being melted, the power of the system, and other factors. Typically, induction furnaces range in capacity from a few kilograms to several tons. For example, small induction furnaces may have a capacity of 1-2 kg, while larger furnaces used in foundries can have a capacity of up to 100 tons or more.
1. Calculate the total weight of the steel that you want to produce in a day.
2. Determine the melting time required for the scrap metal by analyzing the type and grade of steel to be produced.
3. Choose the appropriate furnace lining material and thickness based on the melting temperature of the scrap used.
4. Consider the required power supply based on the furnace capacity and the production volume. Make sure that the power supply is efficient and stable enough to run the furnace.
5. Select the appropriate furnace capacity based on the above factors. Generally, an induction steel melting furnace with a capacity of 100kg to 15 tons is common for small-scale steel production plants, while larger plants might require 20 tons or more.
It is crucial to consult with experts or manufacturers of the induction furnace during the planning and designing phase to ensure that it meets the specific requirements of your steel plant.
Heating temperature is between 200-1400 degrees.
Induction billet furnaces can heat billets to temperatures ranging from room temperature to over 1200°C.
After the Slab is pulled out from the continuous casting machine,Surface temperature is 750 ~ 850℃.
Induction online heating of large steel pipes is widely used in the heat treatment of various high alloy steel pipes required in oil drilling, geological drilling, coal mining, infrastructure exploration and other fields.