Prediction of Mechanical Properties of Multi-phase Steels Based on Stress-Strain Curves
An approach to predict mechanical properties of hot-rolled multi-phase steels referring to the stress-strain curves is proposed. Different from a conventional approach of regression analysis about the relationships between properties and chemical compositions and processing factors, a proposed one i...
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| Published in | ISIJ International Vol. 32; no. 3; pp. 343 - 349 |
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| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
The Iron and Steel Institute of Japan
1992
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| Subjects | |
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| Abstract | An approach to predict mechanical properties of hot-rolled multi-phase steels referring to the stress-strain curves is proposed. Different from a conventional approach of regression analysis about the relationships between properties and chemical compositions and processing factors, a proposed one is based on the analysis and application of stress-strain curve: several commonly used mechanical properties such as yield strength, tensile strength, uniform elongation, total elongation, work-hardening exponent (n) and Vickers hardness, are derived systematically from the stress-strain curve of a multi-phase steel, which is calculated by using concentration factor, i.e., strain partition ratio and stress-strain curves of constituent phases. Stress-strain curves of individual component structures such as ferrite, pearlite, bainite, and martensite are expressed by Swift's equation. Physical background of the concentration factor is discussed by examining theoretical models of deformation for two-phase materials. Evaluation of plastic relaxation related to microstructural topology might be the most difficult point of this approach and some trials are presented. |
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| AbstractList | An approach to predict mechanical properties of hot-rolled multi-phase steels (e.g. carbon steels) referring to the stress--strain curves is proposed. It differs from a conventional approach of regression analysis of the relationships between properties and chemical compositions and processing factors in that it is based on the analysis and application of stress--strain curve: several commonly used mechanical properties such as yield strength, tensile strength, uniform elongation, total elongation, work-hardening exponent (n) and Vickers hardness, are derived systematically from the stress--strain curve of a multi-phase steel, which is calculated by using concentration factor, i.e. strain partition ratio and stress--strain curves of constituent phases. Stress--strain curves of individual component structures such as ferrite, pearlite, bainite, and martensite are expressed by Swift's equation. Physical background of the concentration factor is discussed by examining theoretical models of deformation for two-phase materials. Evaluation of plastic relaxation related to microstructural topology might be the most difficult point of this approach and some trials are presented. An approach to predict mechanical properties of hot-rolled multi-phase steels referring to the stress-strain curves is proposed. Different from a conventional approach of regression analysis about the relationships between properties and chemical compositions and processing factors, a proposed one is based on the analysis and application of stress-strain curve: several commonly used mechanical properties such as yield strength, tensile strength, uniform elongation, total elongation, work-hardening exponent (n) and Vickers hardness, are derived systematically from the stress-strain curve of a multi-phase steel, which is calculated by using concentration factor, i.e., strain partition ratio and stress-strain curves of constituent phases. Stress-strain curves of individual component structures such as ferrite, pearlite, bainite, and martensite are expressed by Swift's equation. Physical background of the concentration factor is discussed by examining theoretical models of deformation for two-phase materials. Evaluation of plastic relaxation related to microstructural topology might be the most difficult point of this approach and some trials are presented. |
| Author | Nakajima, Norihiro Tomota, Yo Kunishige, Kazutoshi Anan, Goro Moriya, Akio Umemoto, Minoru Watanabe, Tsutomu Miyahara, Masayuki Komatsubara, Nozomi Hiramatsu, Akifumi Higo, Yuichi Nanba, Shigenobu |
| Author_xml | – sequence: 1 fullname: Tomota, Yo organization: Department of Materials Science, Ibaraki University – sequence: 2 fullname: Umemoto, Minoru organization: Department of Production Systems Engineering, Toyohashi University of Technology – sequence: 3 fullname: Komatsubara, Nozomi organization: Research & Development Division, Sumitomo Metal Industries, Ltd – sequence: 4 fullname: Hiramatsu, Akifumi organization: Steel R & D Laboratories, Nisshin Steel Co., Ltd – sequence: 5 fullname: Nakajima, Norihiro organization: Kakogawa Works, Kobe Steel, Ltd – sequence: 6 fullname: Moriya, Akio organization: Kure Works, Nisshin Steel Co., Ltd – sequence: 7 fullname: Watanabe, Tsutomu organization: Kure Works, Nisshin Steel Co., Ltd – sequence: 8 fullname: Nanba, Shigenobu organization: Iron & Steel Research Laboratories, Kobe Steel, Ltd – sequence: 9 fullname: Anan, Goro organization: Kakogawa Works, Kobe Steel, Ltd – sequence: 10 fullname: Kunishige, Kazutoshi organization: Research & Development Division, Sumitomo Metal Industries, Ltd – sequence: 11 fullname: Higo, Yuichi organization: Steel R & D Laboratories, Nisshin Steel Co., Ltd – sequence: 12 fullname: Miyahara, Masayuki organization: Kakogawa Works, Kobe Steel, Ltd |
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| References | 15) For example, N. Shikanai, H. Kagawa, M. Kurihara and H. Tagawa: Tetsu-to-Hagané, 76 (1990), 89. 12) Y. Tomota, K. Kuroki, T. Mori and I. Tamura: Mater. Sci. Eng., 24 (1976), 85. 23) For example, M. Nagumo: Acta Metall., 21 (1973), 1661. 20) H. hayashi: Abstract of Spring Meeting of Jpn. Soc. for Technol. Plast., Jpn. Soc. Technol. Plast., Tokyo, (1984), 369. 5) J. E. Bailey and P. B. Hirsch: Philos. Mag., 5 (1960), 485. 11) T. Gladman, I. D. Mcivor and F. B. Pickering: J. Iron Steel Inst., Vol. 00 (1972), 916. 16) K. Araki, Y. Takada and K. Nakada: Trans. Iron Steel Inst. Jpn., 17 (1977), 710. 9) F. B. Pickering: Physical Metallurgy and Design of Steels, translated by T. Fujita, S. Shibata and M. Tanono, Maruzen Tokyo, (1981). 17) Present authors: unpublished work, (1989). 6) F. B. Pickering: Proc. Int. Conf. on Toward Ductility and Toughness, ISIJ and JIM, Tokyo, (1971), 9. 14) Y. Tomota, S. Nakamura, K. Kuroki and I. Tamura: Mater. Sci. Eng., 46 (1980), 69. 3) H. Yada: J. Jpn. Soc. Technol. Plast., 28 (1987), 413. 7) For example, Y. Yamada: Plasticity and Viscoelasticity, Baifukan, (1972). 1) For example, The 131st and 132nd Nishiyama Memorial Seminar, Prediction of Control Technology of the Mechanical Properties of Steel: Present and Future Status, ISIJ, Tokyo, (1989). 13) T. Iwakuma, M. Hori, T. Mori and T. Mura: J. Struct. Eng., 37A (1991), 435. 22) Y. Tomota, Y. Kawamura and K. Kuroki: Bull. Jpn. Soc. Mech. Eng., 24 (1981), 282. 2) K. Esaka, J. Wakita, M. Takahashi, O. Kawano and S. Harada: Seitetsu Kenkyu, (1986), No. 321, 92. 19) H. Nakajima, T. Kikuma and S. Nagashima: Bull. Jpn. Inst. Met., 6 (1967), 699. 4) Y. Saito: Tetsu-to-Hagané, 74 (1988), 609. 8) N. Nakajima: unpublished work, (1989). 18) T. Yoshizawa and K. Kuroki: J. JSME, 64 (1961), 1453. 10) G. C. Rauch and W. C. Leslie: Metall. Trans., 3A (1972), 377. 21) H. Shirasawa, Y. Tanaka, T. Miyoshi and K. Korida: presented at the Congress of SAE, (1988). |
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| Title | Prediction of Mechanical Properties of Multi-phase Steels Based on Stress-Strain Curves |
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