Numerical modeling and analysis for forming process of dual-phase 980 steel exposed to infrared local heating

https://doi.org/10.1016/j.ijsolstr.2015.08.014Get rights and content
Under an Elsevier user license
open archive

Highlights

  • Numerical analysis of V-bending and 2D-draw bending of DP 980 sheet exposed to IR local heating is conducted.

  • Although IR local heating heats only limited areas, the heating is sufficient to reduce the flow stress.

  • The analysis supports that the local heating method has an advantage of shape accuracy over the method to heat the material as a whole in V-bending.

  • Selecting a heating method has an effect on residual stress in V-bending.

Abstract

A recent experiment confirmed that the infrared (IR) local heating method drastically reduces springback of dual-phase (DP) 980 sheets. In the experiment, only the plastic deformation zone of the sheets was locally heated using condensed IR heating. The heated sheets were then deformed by V-bending or 2D-draw bending. Although the experimental observation proved the merit of using the IR local heating to reduce springback, numerical modeling has not been reported. Numerical modeling has been required to predict springback and improve the understanding of the forming process. This paper presents a numerical modeling for V-bending and 2D-draw bending of DP 980 sheets exposed to the IR local heating with the finite element method (FEM). For describing the thermo-mechanical behavior of the DP 980 sheet, a flow stress model which includes a function of temperature and effective plastic strain was newly implemented into Euler-backward stress integration method. The numerical analysis shows that the IR local heating reduces the level of stress in the deformation zone, although it heats only the limited areas, and then it reduces the springback. The simulation also provides a support that the local heating method has an advantage of shape accuracy over the method to heat the material as a whole in V-bending. The simulated results of the springback in both V-bending and 2D-draw bending also show good predictions.

Keywords

Infrared local heating
Dual-phase 980 steel
Thermo-mechanical behavior
Springback
Residual stress

Cited by (0)