Effect of Strarting Structures and Intercritical Annealing on Low Temperatures Mechanical Properties of a HSLA Steel

초기조직 및 이상역열처리가 저합금 고강도강의 저온기계적 성질에 미치는 영향

  • Cho, H.K. (Dept. Metallurgy and Materials Science, Hanyang Univ.) ;
  • Park, K.G. (Dept. Metallurgy and Materials Science, Hanyang Univ.) ;
  • Shin, D.H. (Dept. Metallurgy and Materials Science, Hanyang Univ.) ;
  • Maeng, S.C. (Dept. Metallurgy and Materials Science, Hanyang Univ.)
  • 조현권 (한양대학교 공학대학 금속재료공학과) ;
  • 박광균 (한양대학교 공학대학 금속재료공학과) ;
  • 신동혁 (한양대학교 공학대학 금속재료공학과) ;
  • 맹선재 (한양대학교 공학대학 금속재료공학과)
  • Published : 1994.03.31

Abstract

Austenite formation and Low temperatures mechanical properties of HSLA steel of different starting structures have been studied by intercritical annealing(IA). The different starting structures are: ferrite+pearlite(FP1), martensite(M1), cold worked ferrite+pearlite(FP2) and cold worked martensite(M2). In most cases tensile strength and elongation was increased by decreasing the testing temperatures regardless of the IA time. Tensile strength of the cold worked starting structures was higher than that of the non-cold worked starting structures. However not any noticeable difference in elongation was found between two cases. Low temperatures impact properties were affected by the starting structures. Charpy V-notch impact transition temperatures of the M-starting structures were around $-40^{\circ}C$, and those of the FP starting structures were around $-10^{\circ}C$. Impact energy was lower in the cold worked specimens than in the non-cold worked specimens at the same starting structures. DP structure obtained from the M-starting structure has shown superior low temperatures mechanical properties than the DP structure obtained from the FP-starting structure.

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