Toughness of Ultrafine Grained Ferritic Steels Fabricated by ARB and Annealing Process

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  • Tsuji Nobuhiro
    Department of Adaptive Machine Systems, Graduate School of Engineering, Osaka University
  • Okuno Susumu
    Department of Adaptive Machine Systems, Graduate School of Engineering, Osaka University
  • Koizumi Yuichiro
    Department of Adaptive Machine Systems, Graduate School of Engineering, Osaka University
  • Minamino Yoritoshi
    Department of Adaptive Machine Systems, Graduate School of Engineering, Osaka University

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Abstract

A plain IF steel and a P-added IF steel having various ultrafine grain sizes from 0.24 to 11 μm were fabricated by the accumulative roll bonding (ARB) process followed by annealing. Dynamic fracture toughness of the ultrafine grained IF steels was investigated as a function of grain size by miniaturized Charpy impact test. The static strength of the IF steels significantly increased with decreasing the grain size, while the uniform elongation was limited in the ultrafine grained samples. A number of delamination appeared in the impact-tested specimens, especially in the ultrafine grained materials at low temperatures. It was concluded that the frequent delamination is not owing to insufficient roll-bonding in the ARB specimens but it is rather a characteristic feature of the ultrafine grained materials fabricated through heavy deformation. Because of the delamination, the absorbed energy in the impact test continuously decreased with decreasing the test temperature. On the other hand, an obvious change from the ductile fracture surface characterized by dimples into the brittle fracture surface mainly due to intergranular fracture was recognized at a certain low temperature. The ductile-brittle transition temperature determined from the microscopic fracture surfaces greatly decreased with decreasing the grain size, and finally no brittle fracture happened even at −190°C when the grain size was smaller than 5 μm or 2 μm in the plain IF steel or the P-added IF steel, respectively. It was concluded that the ultra-grain refinement is quite effective to improve the low-temperature toughness of ferritic steels and that it is possible to make phosphorus substantially harmless by grain refinement.

Journal

  • MATERIALS TRANSACTIONS

    MATERIALS TRANSACTIONS 45 (7), 2272-2281, 2004

    The Japan Institute of Metals and Materials

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