Abstract
The focus of this study is on the characterization of the local plastic deformation and failure of functionally graded 22MnB5 plates after hot stamping using an in situ approach. Various forming strategies at elevated temperatures are performed using differentially tempered forming tools to locally tailor the microstructure. By controlling the cooling rate, graded as well as martensitic and ferritic–pearlitic microstructures are obtained. Experimental analysis includes evaluation of the material‐ and geometry‐dependent local strain evolution by tensile tests coupled with digital image correlation conducted on two different sample geometries, tapered and nontapered. Experimental results reveal a much more complex deformation behavior for the functionally graded than for homogenous samples. As expected, the distribution of plastic strain of the graded sample is depending on the mixture of its constituting microstructures; however, different types of localized failure after necking are found. Obviously, failure evolution also depends on the sample geometry. Failure patterns observed include shear bands, crossed bands, or homogenous localization of strain, i.e., traditional necking. Eventually, in the case of the nontapered geometry, a lower level of local plastic strain with multiple necking sites is observed. Based on findings presented, detailed process‐microstructure‐property‐damage relationships are established.
Highlights
The as-received material shows a homogeneous distribution of ferritic–pearlitic grains, Figure 5a, which has been shown numerously in the literature.[53]
Tensile tests coupled with digital image correlation (DIC) measurements on graded structures in this study reveal that before the appearance of strain localization, a slight leveling of flow stress seems to happen in the beginning of deformation leading to an initial almost homogenous plastic strain distribution despite the inhomogeneous microstructure
Various forming strategies were used utilizing segmented, differentially tempered forming tools to tailor the local microstructures of 22MnB5 to obtain different characteristic monolithic and functionally graded microstructures
Summary
1. Introduction deformation and failure of functionally graded 22MnB5 plates after hot stamping using an in situ approach. Experimental results reveal a much more complex deformation behavior for the functionally graded than for homogenous samples. The distribution of plastic strain of the graded sample is depending on the mixture of its constituting microstructures; different types of high strength steel 22MnB5, which combines good formability and highest strength properties of 1500 MPa at a fully martensitic structure after press hardening at reasonable costs.[6,7] Since the first application in the automotive industry in 1986 as a side-impact beam,[8] the application localized failure after necking are found.
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