Korean Journal of Materials Research (한국재료학회지)

Materials Research Society of Korea (한국재료학회)
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Microstructure and Mechanical Properties of High Strength and Stretch-Flangeability Hot-Rolled Steels

고강도-신장플랜지성 열연강의 미세조직 및 기계적 성질

  • Chun, Eun-Joon (Department of Materials Science and Engineering, Pusan National University) ;
  • Lee, Ju-Seung (Department of Materials Science and Engineering, Pusan National University) ;
  • Do, Hyeong-Hyeop (Technical Research Center, Hyundai Steel Company) ;
  • Kim, Seong-Ju (Technical Research Center, Hyundai Steel Company) ;
  • Park, Yong-Ho (Department of Materials Science and Engineering, Pusan National University) ;
  • Kang, Nam-Hyun (Department of Materials Science and Engineering, Pusan National University)
  • Received : 2011.10.26
  • Accepted : 2011.11.18
  • Published : 2012.01.27
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Abstract

Research into the development of high strength (1 GPa) and superior formability, such as total elongation (10%), and stretch-flangeability (50%) in hot-rolled steel was conducted with a thermomechanically controlled hot-rolling process. To improve the overall mechanical properties simultaneously, low-carbon steel using precipitation hardening of Ti-Nb-V multimicroalloying elements was employed. And, ideal microstructural characteristics for the realization of balanced mechanical properties were determined using SEM, EBSD, and TEM analyses. The developed steel, 0.06C-2.0Mn-0.5Cr-0.2(Ti + Nb + V), consisted of ferrite as the matrix phase and second phase of granular bainite with fine carbides (20-50 nm) in both phases. The significant factor of the microstructural characteristics that affect stretch-flangeability was found to be the microstructural homogeneity. The microstructural homogeneity, manifest in such characteristics as low localization of plastic strain and internally stored energy, was identified by grain average misorientation method, analyzed by electron backscattered diffraction (EBSD) and hardness deviation between the phases. In summar, a hot-rolled steel having a composition 0.06C-2.0Mn-0.5Cr-0.2(Ti + Nb + V) demonstrated a tensile strength of 998 MPa, a total elongation of 19%, and a hole expansion ratio of 65%. The most important factors to satisfy the mechanical property were the presence of fine carbides and the microstructural homogeneity, which provided low hardness deviation between the phases.

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References

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