Studies on the influence of embossing on the mechanical properties of high-strength sheet metal

Abstract

In sheet metal forming, the embossing technique can be used to strengthen sheet metal materials and to improve their properties. Increase in strength is achieved by strain hardening and residual stresses induced as a result of the embossing process, which locally influence the mechanical properties of the sheet metal blanks such as yield and tensile stress. Through specifically inducing these effects into a blank, the process window of a deep drawing process can be enlarged and the operating performance of sheet metal components under quasi-static and cyclic loading can be significantly improved. In particular, this relates to the fatigue strength and characteristics of these components under different operating conditions. In the study presented in this paper, dual-phase DP600 grade steel sheets having a thickness of 1.2 mm were subjected to near-surface unilateral embossing. Here the influence of different embossing patterns and embossing depths on the stresses and strains acting in the sheet metal was investigated. In order to evaluate the effects of the focused embossing parameters on the mechanical properties, forming behavior and influence of locally induced prestrengthening of sheet metal, tensile tests were conducted with embossed sheet specimens. An essential finding of this study is that the increase in yield strength is significantly dependent on the distances between individual embossings.