The Use of the Linear Energy Calculation Model in High-Frequency Induction (HFI) Tube Welding Technology to Obtain Optimal Microstructure and Weld Geometry

Abstract: The article presents a calculation model of the linear energy of welding P235GH steel tubes with high-frequency currents in order to obtain an optimal microstructure and geometry of the weld of high internal purity. The model was developed based on real data for the standard linear energy used in the steelworks Huta Łabędy and presented as the power factor P/V and P/(V·t), where P is the power [kW], V the production speed [m/min] and t the wall thickness. The model can be used for two ranges of pipe diameters:… Show more

“…All the tested joints were characterized by very good quality. They had a typical zonal structure consisting of the base material, zones with a predominant influence of mechanical deformation, zones of thermomechanical influence, dynamic recrystallization zones, and bonding zones of the so-called "ferritic line" [25].…”

Improving the Energy Efficiency of the Production of Pipes Welded with High-Frequency Induction

“…All the tested joints were characterized by very good quality. They had a typical zonal structure consisting of the base material, zones with a predominant influence of mechanical deformation, zones of thermomechanical influence, dynamic recrystallization zones, and bonding zones of the so-called "ferritic line" [25].…”

Improving the Energy Efficiency of the Production of Pipes Welded with High-Frequency Induction