In recent years significant advances have been made in the field of multiphase steels for automotive applications. Complex steel grades have been developed with exceptional mechanical properties: they combine high strength values with an excellent ductility. Transformation-induced plasticity (TRIP) steels show these properties pre-eminently. The high ductility makes TRIP steels well suited for use in energy-absorbing devices. To guarantee a controlled dissipation of the energy released during a crash, knowledge and understanding of the impact-dynamic material properties are essential. An extensive experimental programme to investigate the strain rate dependent mechanical properties was set up, and the results for two CMnAl TRIP steels and a CMnSi TRIP steel are presented in this paper. A split Hopkinson tensile bar set-up was used for the experiments. Microstructural observation techniques were used to reveal the mechanisms governing the observed high strain rate behaviour. From the results it is clear that the excellent mechanical properties not only are preserved at higher strain rates but even improve. Several phenomenological material models were investigated to describe the strain rate and temperature dependent behaviour of TRIP steels. Both the Johnson-Cook model and an extended version of the Ludwig model were found to give good agreement with the experimental data.


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    Title :

    Crashworthiness characterization and modelling of high-strength steels for automotive applications


    Contributors:


    Publication date :

    2006


    Size :

    10 Seiten, 18 Quellen




    Type of media :

    Article (Journal)


    Type of material :

    Print


    Language :

    English





    Crashworthiness characterization and modelling of high-strength steels for automotive applications

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    Van Slycken, J / Verleysen, P / Degrieck, J et al. | SAGE Publications | 2006


    High-strength steels for automotive applications

    Onink, M. / Zijp, J. / Bodin, A. | Tema Archive | 1999


    Crashworthiness of Automotive Stamped Parts Using High Strength Steel Sheets

    Yoshitake, A. / Zeng, D. / Sato, K. et al. | SAE Technical Papers | 2002