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Strain rate dependent dynamic mechanical response of bainitic multiphase steels

Behnam Shakerifard, Jesus Galan Lopez, Mari Carmen Taboada Legaza, Patricia Verleysen (UGent) and Leo Kestens (UGent)
(2019) MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING. 745. p.279-290
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Abstract
Bainitic steels, as a third generation of advanced high strength steels, are potential steel grades for automotive applications. Two grades of bainitic steels with low and high silicon content, with three different thermal treatments per grade and therefore different second phase constituents, are examined under quasi-static and high strain rate deformations. Microstructures are studied by advanced characterization techniques, including X-ray diffraction and scanning electron microscope equipped with an electron backscatter diffraction detector. Subsequently, the quasi-static and dynamic mechanical responses of the steels are correlated to the microstructures. A positive effect of the strain rate is observed for all the examined materials: when the strain rate is increased, both the tensile stress and deformation levels increase, thus also the energy absorption capacity. However, it is shown that the higher the fraction of second phase constituents, the lower the effect of strain rate becomes. In addition, the grain size directly correlates to the strain rate effect too. The phenomenological hardening model of Johnson-Cook is used to simulate the quasi-static and dynamic flow behaviors, allowing to quantify the strain rate sensitivity for each material. A comprehensive literature survey on the strain rate sensitivity of various steel grades reveals that steels with higher strength demonstrate a lower strain rate sensitivity factor. This trend can be approximated by a power law function which clearly is followed by the materials under consideration in this study.
Keywords
Mechanical Engineering, General Materials Science, Mechanics of Materials, Condensed Matter Physics

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MLA
Shakerifard, Behnam, et al. “Strain Rate Dependent Dynamic Mechanical Response of Bainitic Multiphase Steels.” MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, vol. 745, 2019, pp. 279–90, doi:10.1016/j.msea.2018.12.105.
APA
Shakerifard, B., Galan Lopez, J., Taboada Legaza, M. C., Verleysen, P., & Kestens, L. (2019). Strain rate dependent dynamic mechanical response of bainitic multiphase steels. MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 745, 279–290. https://doi.org/10.1016/j.msea.2018.12.105
Chicago author-date
Shakerifard, Behnam, Jesus Galan Lopez, Mari Carmen Taboada Legaza, Patricia Verleysen, and Leo Kestens. 2019. “Strain Rate Dependent Dynamic Mechanical Response of Bainitic Multiphase Steels.” MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING 745: 279–90. https://doi.org/10.1016/j.msea.2018.12.105.
Chicago author-date (all authors)
Shakerifard, Behnam, Jesus Galan Lopez, Mari Carmen Taboada Legaza, Patricia Verleysen, and Leo Kestens. 2019. “Strain Rate Dependent Dynamic Mechanical Response of Bainitic Multiphase Steels.” MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING 745: 279–290. doi:10.1016/j.msea.2018.12.105.
Vancouver
1.
Shakerifard B, Galan Lopez J, Taboada Legaza MC, Verleysen P, Kestens L. Strain rate dependent dynamic mechanical response of bainitic multiphase steels. MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING. 2019;745:279–90.
IEEE
[1]
B. Shakerifard, J. Galan Lopez, M. C. Taboada Legaza, P. Verleysen, and L. Kestens, “Strain rate dependent dynamic mechanical response of bainitic multiphase steels,” MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, vol. 745, pp. 279–290, 2019.
@article{8602989,
  abstract     = {{Bainitic steels, as a third generation of advanced high strength steels, are potential steel grades for automotive applications. Two grades of bainitic steels with low and high silicon content, with three different thermal treatments per grade and therefore different second phase constituents, are examined under quasi-static and high strain rate deformations. Microstructures are studied by advanced characterization techniques, including X-ray diffraction and scanning electron microscope equipped with an electron backscatter diffraction detector. Subsequently, the quasi-static and dynamic mechanical responses of the steels are correlated to the microstructures. A positive effect of the strain rate is observed for all the examined materials: when the strain rate is increased, both the tensile stress and deformation levels increase, thus also the energy absorption capacity. However, it is shown that the higher the fraction of second phase constituents, the lower the effect of strain rate becomes. In addition, the grain size directly correlates to the strain rate effect too. The phenomenological hardening model of Johnson-Cook is used to simulate the quasi-static and dynamic flow behaviors, allowing to quantify the strain rate sensitivity for each material. A comprehensive literature survey on the strain rate sensitivity of various steel grades reveals that steels with higher strength demonstrate a lower strain rate sensitivity factor. This trend can be approximated by a power law function which clearly is followed by the materials under consideration in this study.}},
  author       = {{Shakerifard, Behnam and Galan Lopez, Jesus and Taboada Legaza, Mari Carmen and Verleysen, Patricia and Kestens, Leo}},
  issn         = {{0921-5093}},
  journal      = {{MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING}},
  keywords     = {{Mechanical Engineering,General Materials Science,Mechanics of Materials,Condensed Matter Physics}},
  language     = {{eng}},
  pages        = {{279--290}},
  title        = {{Strain rate dependent dynamic mechanical response of bainitic multiphase steels}},
  url          = {{http://dx.doi.org/10.1016/j.msea.2018.12.105}},
  volume       = {{745}},
  year         = {{2019}},
}
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