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Year 2018, Volume: 5 Issue: 4, 301 - 306, 31.12.2018
https://doi.org/10.17350/HJSE19030000107

Abstract

References

  • 1. Taşan, CC. et al. An Overview of Dual-Phase Steels: Advances in Microstructure-Oriented Processing and Micromechanically Guided Design. Annual Review on Material Research 45, pp. 19-40, 2005.
  • 2. Billur E, et al. New Generation Advanced High Strength Steels: Developments, Trends and Constraints. International Journal of Scientific and Technological Research 2, pp.50- 62, 2016.
  • 3. Speich GR. Dual Phase Steels, ASM International, ABD,1990.
  • 4. Singh RR, et al. Comparison of Mechanical Properties of Medium Carbon Steel with Dual Phase Steel. International Journal of Mechanical Engineering 4, pp. 1-8, 2008.
  • 5. Tsipouridis P. Mechanical Properties of Dual Phase Steels. Ph.D. Thesis, Technische Universitat München, Germany, 2006.
  • 6. http://automotive.arcelormittal.com/repository2/ About/Automotive/201404_datasheet-dualphase.pdf Date:01.03.2017
  • 7. Darabi A Ch, et al. Micromechanical Analysis of Two HeatTreated Dual Phase Steels: DP 800 and DP 980, Mechanics of Materials 110, pp. 68-83, 2017.
  • 8. Huang TT, et al. Strain-hardening Behaviors of Dual Phase Steels with Microstructure Features, Material Science and Engineering A. 672, pp. 88-97 2016.
  • 9. Parasad GVSS. An Improved Dislocation Density Based Work Hardening Model for Al-Alloys. Master Thesis, RWTH Germany, 2007.
  • 10. LePera F. Improved Etching Technique for the Determination of Percent Martensite in High-Strength Dual-phase Steels, Metallography 12, pp. 263-268, 1979.
  • 11. Taşan CC, et al. Integrated Experimental-simulation Analysis of Stress and Strain Partitioning in Multiphase Alloys. Acta Materiala 81, pp. 386-400, 2014.

Hardening Behavior Characterization of Dual Phase Steels

Year 2018, Volume: 5 Issue: 4, 301 - 306, 31.12.2018
https://doi.org/10.17350/HJSE19030000107

Abstract

The requirements for higher passenger safety, improved fuel economy and weight reduction in automobile industry necessitates the usage of advanced high strength steel AHSS grades. Dual phase DP steels are the most widely used one among AHSS. DP steels become increasingly popular, since they provide a combination of sufficient formability at room temperature and tensile strength over 1000 MPa. The current standards for DP steels only specifies yield and tensile strength. Steels from various producers have considerably different composition and microstructure; however they still have the same grade name. Combined with the inherited heterogeneous microstructure, those steels exhibit different strain hardening behavior. The aim of this study is to evaluate the strain hardening behavior of DP800 steels, obtained from different vendors and thus having different compositions and microstructures. The strain hardening behavior was characterized with tensile tests performed along rolling and transverse directions. The microstructure has been characterized with optical and scanning electron microscopes. The martensite fraction, grain size of ferrite and chemical composition has been correlated to the strain hardening behavior. The results show that the steel with more micro-alloying addition has finer ferritic grain size, which cause higher initial strain hardening rate. The steel with higher Mn and Cr has higher martensite fraction, which cause strain hardening rate to be higher at higher strain levels.

References

  • 1. Taşan, CC. et al. An Overview of Dual-Phase Steels: Advances in Microstructure-Oriented Processing and Micromechanically Guided Design. Annual Review on Material Research 45, pp. 19-40, 2005.
  • 2. Billur E, et al. New Generation Advanced High Strength Steels: Developments, Trends and Constraints. International Journal of Scientific and Technological Research 2, pp.50- 62, 2016.
  • 3. Speich GR. Dual Phase Steels, ASM International, ABD,1990.
  • 4. Singh RR, et al. Comparison of Mechanical Properties of Medium Carbon Steel with Dual Phase Steel. International Journal of Mechanical Engineering 4, pp. 1-8, 2008.
  • 5. Tsipouridis P. Mechanical Properties of Dual Phase Steels. Ph.D. Thesis, Technische Universitat München, Germany, 2006.
  • 6. http://automotive.arcelormittal.com/repository2/ About/Automotive/201404_datasheet-dualphase.pdf Date:01.03.2017
  • 7. Darabi A Ch, et al. Micromechanical Analysis of Two HeatTreated Dual Phase Steels: DP 800 and DP 980, Mechanics of Materials 110, pp. 68-83, 2017.
  • 8. Huang TT, et al. Strain-hardening Behaviors of Dual Phase Steels with Microstructure Features, Material Science and Engineering A. 672, pp. 88-97 2016.
  • 9. Parasad GVSS. An Improved Dislocation Density Based Work Hardening Model for Al-Alloys. Master Thesis, RWTH Germany, 2007.
  • 10. LePera F. Improved Etching Technique for the Determination of Percent Martensite in High-Strength Dual-phase Steels, Metallography 12, pp. 263-268, 1979.
  • 11. Taşan CC, et al. Integrated Experimental-simulation Analysis of Stress and Strain Partitioning in Multiphase Alloys. Acta Materiala 81, pp. 386-400, 2014.
There are 11 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Kemal Davut This is me

Caner Simsir This is me

Baris Cetin This is me

Publication Date December 31, 2018
Published in Issue Year 2018 Volume: 5 Issue: 4

Cite

Vancouver Davut K, Simsir C, Cetin B. Hardening Behavior Characterization of Dual Phase Steels. Hittite J Sci Eng. 2018;5(4):301-6.

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