Abstract
This chapter provides a summary of basic knowledge on martensitic phase transformation in general and in steels, in particular. Besides the thermodynamic aspects of martensitic phase transformation, the different transformation path’s (direct γ to α’, direct γ to ε, direct ε to α’ and indirect γ to ε to α’) occurring in steels are described in detail in combination with the relevant orientation relationships. In addition, the influence of stacking-fault energy is discussed. Finally, the kinetics of the martensite transformation process is described according to the well-known Olson–Cohen model.
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References
V.A. Lobodyuk, Y. Estrin, in Martensitic Transformations, CISP, Cambridge (2014)
J. Christian, G. Olson, M. Cohen, Journal de Physique IV Colloque (1995), pp. C8-3–C8-10
E. Hornbogen, H. Warlimont, in Metalle (Springer, Berlin, Heidelberg, 2015)
E.C. Bain, Trans. Am. Inst. Min. Metall. Eng. 1, 25–46 (1924)
G. Kurdjumov, G. Sachs, Zeitschrift für Physik 64, 325–343 (1930)
G. Wassermann, in Archiv f. Eisenhüttenwesen 16 (1933) 647 cited in: Y. He, S. Godet, J.J. Jonas, Acta Materialia 53 (2005), pp. 1179–90
I. Tamura, Met. Sci. 16, 245–253 (1982)
H.T. Hesemann, in Die martensitische Phasenumwandlung in dünnen Kobaltschichten: Universität Stuttgart (2002)
G.B. Olson, M. Cohen, J. Less Common Met. 28, 107–118 (1972)
T. Takahashi, W.A. Bassett, Science 145, 483–486 (1964)
E. Pereloma, D.V. Edmonds (ed.), Phase transformations in Steels -: Volume 2: Diffusionless transformations, high strength steels, modelling and advanced analytical techniques. 2012nd ed (Oxford-Cambridge-Philadelphia-New Delhi: Woodhead Publishing Limited, 2012)
J.A. Self, D.K. Matlock, D.L. Olson, in Welding Research Supplement (1984), pp. 282–288
S. Martin, C. Ullrich, D. Šimek et al., J. Appl. Crystallogr. 44, 779–787 (2011)
W.G. Burgers, Physica I, 561–586 (1934)
H. Schumann, Kristall und Technik 12, 363–370 (1977)
L. Sandoval, H.M. Urbassek, P. Entel, New J. Phys. 11, 103027 (2009)
X. Zhang, T. Hickel, J. Rogal et al., Phys. Rev. B 94, 10 (2016)
B. Hallstedt, N. Dupin, M. Hillert et al., Calphad 31, 28–37 (2007)
G. Kurdjumov, E. Kaminski, Nature 122, 475–476 (1928)
G. Kurdjumov, E. Kaminski, Zeitschrift für Physik 53, 696–707 (1929)
F. Mücklich, in Martensite transformation. Saarbrücken. https://www.slideserve.com/phyllis-jefferson/einf-hrung-in-die-funktionswerkstoffe-kapitel-3-martensittransformation. 10 November 2018
H. Schumann, Kristall und Technik 10, 401–411 (1975)
S. Morito, H. Tanaka, R. Konishi et al., Acta Mater. 51, 1789–1799 (2003)
Z. Nishiyama, Martensitic Transformation (Elsevier Science, Oxford, 1978)
M.J. Holzweissig, D. Canadinc, H.J. Maier, Modell. Simul. Mater. Sci. Eng. 21, 85009 (2013)
A.B. Greninger, A.R. Trojano, Met. Trans. 185, 590–598 (1949)
W. Pitsch, Acta Metall. 10, 897–900 (1962)
H. Schumann (ed.), Martensitische Umwandlungen in Stählen und ihre Beeinflussung durch äußere Spannungen, 1st edn. (Dt. Verl. f. Grundstoffindustrie, Leipzig, 1985)
H. Fujita, S. Ueda, Acta Metall. 20, 759–767 (1972)
S. Ueda, H. Fujita, Trans. JIM 28, 169–177 (1977)
J.A. Venables, Phil. Mag. 7, 35–44 (1962)
H. Schumann, Kristall und Technik 11, 663–671 (1976)
H. Schumann, Kristall und Technik 9, 1141–1152 (1974)
K.P. Staudhammer, L.E. Murr, S.S. Hecker, Acta Metall. 31, 267–274 (1983)
Y.-K. Lee, S.-J. Lee, J. Han, Mater. Sci. Technol. 32, 1–8 (2016)
V. Gavriljuk, B. Shanina, HTM-J. Heat Treatment Mater. 65, 189–194 (2010)
R.E. Schramm, R.P. Reed, Metall. Trans. A 6, 1345–1351 (1975)
P.J. Brofman, G.S. Ansell, Metall. Trans. A 9, 879–880 (1978)
C.G. Rhodes, A.W. Thompson, Metall. Trans. A 8, 1901–1906 (1977)
S. Martin, Deformationsmechanismen bei verschiedenen Verformungstemperaturen in austenitischem TRIP/TWIP-Stahl. Zugl.: Freiberg, TU Bergakademie, Diss., 2013: TU Bergakademie. Freiberg (2014)
Q.-X. Dai, A.-D. Wang, X.-N. Cheng, X.-M. Luo, Chin. Phys. 11, 596–600 (2002)
M.F. De Campos, Mater. Sci. Forum 591–593, 708–711 (2008)
C.C. Bampton, I.P. Jones, M.H. Loretto, Acta Metall. 26, 39–51 (1978)
D.J.H. Cockayne, I.L.F. Ray, M.J. Whelan, Phil. Mag. 20, 1265–1270 (1969)
M.J. Mills, P. Stadelmann, Philos. Mag. A 60, 355–384 (1989)
D. Rafaja, C. Krbetschek, D. Borisova et al., Thin Solid Films 530, 105–112 (2013)
D. Rafaja, C. Krbetschek, C. Ullrich et al., J. Appl. Crystallogr. 47, 936–947 (2014)
N.I. Medvedeva, M.S. Park, D.C. van Aken et al., J. Alloy. Compd. 582, 475–482 (2014)
A. Abbasi, A. Dick, T. Hickel et al., Acta Mater. 59, 3041–3048 (2011)
L. Remy, Acta Metall. 25, 173–179 (1977)
G.B. Olson, M. Cohen, Metall. Trans. A 6, 791–795 (1975)
D. Geissler, J. Freudenberger, A. Kauffmann et al., Phil. Mag. 94, 2967–2979 (2014)
S. Allain, J.-P. Chateau, O. Bouaziz et al., in 13th International Conference on the Strength of Materials, vol. 387–389 (2004), pp. 158–162
B.C. De Cooman, O. Kwon, K.-G. Chin, Mater. Sci. Technol. 28, 513–527 (2013)
T.-H. Lee, E. Shin, C.-S. Oh et al., Acta Mater. 58, 3173–3186 (2010)
J.-K. Kim, B.C. de Cooman, Mater. Sci. Eng. A 676, 216–231 (2016)
S. Wolf, S. Martin, L. Krüger et al., Mater. Sci. Eng. A 594, 72–81 (2014)
A. Weiss, H. Gutte, Habilitation, Technische Universität Bergakademie Freiberg (2011)
T. Angel, ISIJ Int. 177, 284–288 (1954)
W. Gerberich, G. Thomas, E. Parker et al., in 2nd International Conference on the Strength of Metals and Alloys, Pacific Grove, California (1970), pp. 894–899
R.G. Stringfellow, D.M. Parks, G.B. Olson, Acta Metall. Mater. 40, 1703–1716 (1992)
T. Iwamoto, T. Tsuta, Int. J. Plast. 16, 791–804 (2000)
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Weidner, A. (2020). Martensitic Phase Transformation. In: Deformation Processes in TRIP/TWIP Steels. Springer Series in Materials Science, vol 295. Springer, Cham. https://doi.org/10.1007/978-3-030-37149-4_3
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DOI: https://doi.org/10.1007/978-3-030-37149-4_3
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