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Experimental Characterisation of Tool Hardness Evolution Under Consideration of Process Relevant Cyclic Thermal and Mechanical Loading During Industrial Forging Read chapter Read first chapter

2021 | OriginalPaper | Chapter

Investigation of the Phase Transformation in Hot Stamping Processes with Regard to the Testing Facility

Authors : A. Horn, T. Hart-Rawung, J. Buhl, M. Bambach, M. Merklein

Published in: Production at the leading edge of technology

Publisher: Springer Berlin Heidelberg

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Abstract

Hot stamping of boron manganese steel is a state of the art process for manufacturing safety-relevant automotive components with regard to lightweight design. In terms of the mechanical properties, the microstructural evolution is of particular interest. Besides conventional hot stamping processes, this is especially apparent for the manufacture of hot stamped parts with tailored properties. To reduce costs and scrap parts, numerical process design requires appropriate material models considering transformation kinetics during in-die quenching. The phase transformation behavior can be characterized through experiments on various testing facilities, which can lead to discrepancies in the results and therefore in the predicted mechanical properties. In this paper, the results from two testing facilities are compared to each other through dilatometry experiments on the boron-manganese steel 22MnB5. For further characterization of the differences, secondary samples are taken to analyze the hardness as well as the microstructure by optical microscopy.

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previous chapter Numerical Development of a Tooling System for the Co-extrusion of Asymmetric Compound Profiles on a Laboratory Scale
next chapter Simulation of an Electromagnetic Foil-Feeding Device
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Metadata
Title
Investigation of the Phase Transformation in Hot Stamping Processes with Regard to the Testing Facility
Authors
A. Horn
T. Hart-Rawung
J. Buhl
M. Bambach
M. Merklein
Copyright Year
2021
Publisher
Springer Berlin Heidelberg
Book
Production at the leading edge of technology

Print ISBN: 978-3-662-62137-0

Electronic ISBN: 978-3-662-62138-7

Copyright Year: 2021

DOI
https://doi.org/10.1007/978-3-662-62138-7_8

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