The simulation results show that the multi-step forming can optimize the deformation path of sheet metal,make the deformation more uniformly,effectively restrain wrinkles and improve the deformation capacity of sheet metal.

The deformation path of sheet metal is optimized.

The multi-steps forming is studied with numerical simulation in this paper,at the same time,the effect of the thickness of sheet metal on the forming path is also simulated.

The multi-steps forming is studied with numerical simulation in this paper, at the same time, the effect of the thickness of sheet metal on the forming path is also simulated.

Analysis of forming of tailor welded blanks square box based on strain path;

Research on formability of tailor welded blank box based on strain path

Using the finite element method software Dynaform,numerical simulations of blank holder force are carried out to reseach its influence on the strain path of the dangerous point and the weld line movement on the condition of different BHF.

Using the technique of artificial neural networks,a useful method of controlling deformation path of sheet metal is proposed.

Real time control of deformation path is key to precision metal forming.

It is the key to establish the control model for deformation path during the process of metal forming.