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Solid state phase transformation kinetics: Evaluation of the modular transformation model

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Published/Copyright: June 11, 2013
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International Journal of Materials Research
From the journal International Journal of Materials Research Volume 102 Issue 7

Abstract

An evaluation of the (most) recent developments of the modular transformation model, for describing the kinetics of solid–solid phase transformations, has been made. As a result a two-step procedure for its practical application has been proposed. On this basis the operating nucleation, growth and impingement modes can be identified and quantified. The model has been shown to be applicable to very diverse transformations, as demonstrated by examples taken up in this paper.

Keywords: Solid state phase transformation kinetics; Isothermal and isochronal transformations; Crystallization; Normal and abnormal massive transformation; Precipitation
* Correspondence address Prof. Dr. Ferdinand Sommer Max Planck Institute for Intelligent Systems (formerly Max Planck Institute for Metals Research) Heisenbergstr. 3, D-70569 Stuttgart, Germany Tel.: +49 711 689 3350 Fax: +49 711 689 3312E-mail:

References

[1] J.W.Christan: The Theory of Transformations in Metals and Alloys, Part 1 Equilibrium and General Kinetic Theory, Pergamon Press, Oxford, (1975).Search in Google Scholar

[2] E.J.Mittemeijer: Fundamentals of Materials Science, Springer, Heidelberg, (2010).Search in Google Scholar

[3] A.T.W.Kempen, F.Sommer, E.J.Mittemeijer: Acta Mater.50 (2002) 3545.10.1016/S1359-6454(02)00149-0Search in Google Scholar

[4] E.J.Mittemeijer, F.Sommer: Z Metallkd.93 (2002) 352.Search in Google Scholar

[5] F.Liu, F.Sommer, C.Bos, E.J.Mittemeijer: Inter. Mater. Rev.52 (2007) 193.10.1179/174328007X160308Search in Google Scholar

[6] R.Bauer, E.A.Jägle, W.Baumann, E.J.Mittemeijer: Phil. Mag.91 (2011) 437.10.1080/14786435.2010.525541Search in Google Scholar

[7] W.Baumann, A.Leineweber, E.J.Mittemeijer: Intermetallics19 (2011) 526.10.1016/j.intermet.2010.11.027Search in Google Scholar

[8] F.Liu, S.J.Song, F.Sommer, E.J.Mittemeijer: Acta Mater. (2009) 576176. F.Liu, S.J.Song, F.Sommer, E.J.Mittemeijer: Acta Mater.58 (2010) 2292.Search in Google Scholar

[9] A.T.W.Kempen, F.Sommer, E.J.Mittemeijer: J. Mater. Sci.37 (2002) 1321.10.1023/A:1014556109351Search in Google Scholar

[10] F.Liu, F.Sommer, E.J.Mittemeijer: J. Mater. Sci.39 (2004) 1621.10.1023/B:JMSC.0000016161.79365.69Search in Google Scholar

[11] Y.C.Liu, F.Sommer, E.J.Mittemeijer: Phil. Mag. A84 (2004) 1853.10.1080/14786430410001663178Search in Google Scholar

[12] K.F.Kelton, A.L.Greer, C.V.Thompson: J. Chem. Phys.79 (1983) 6261.10.1063/1.445731Search in Google Scholar

[13] D.Kashchiev: Surf. Sci.: 14 (1969) 209.10.1016/0039-6028(69)90055-7Search in Google Scholar

[14] H.Nitsche, F.Sommer, E.J.Mittemeijer: J. Non. Crys. Solids351 (2005) 3760.10.1016/j.jnoncrysol.2005.08.040Search in Google Scholar

[15] R.Bauer, E.Bischoff, E.J.Mittemeijer: Inter. J. Mat. Res. (2011) in pressSearch in Google Scholar

[16] C.Bos, F.Sommer, E.J.Mittemeijer: Acta Mater.53 (2005) 5333.10.1016/j.actamat.2005.08.010Search in Google Scholar

[17] M.J.Starink: J. Mater. Sci.36 (2001) 4433.10.1023/A:1017974517877Search in Google Scholar

[18] M.Avrami: J. Chem. Phys.7 (1939) 1103.10.1063/1.1750380Search in Google Scholar

[19] M.Avrami: J. Chem. Phys.8 (1940) 212.10.1063/1.1750631Search in Google Scholar

[20] M.Avrami: J. Chem. Phys.9 (1941) 177.10.1063/1.1750872Search in Google Scholar

[21] W.A.Johnson, R.F.Mehl: Trans. Am. Inst. Mining Metallurgical Eng.135 (1939) 416.Search in Google Scholar

[22] A.N.Kolmogorov: Izv. Akad. Nauk SSSR Ser.3 (1937) 355.Search in Google Scholar

[23] E.J.Mittemeijer: J. Mater. Sci.27 (1992) 3977.10.1007/BF01105093Search in Google Scholar

[24] A.Leineweber, H.Nitsche, V.Hlukhyy, R.Hoffmann, R.Pöttgen: Intermetallics53 (2005) 5333.Search in Google Scholar

[25] F.Liu, H.Nitsche, F.Sommer, E.J.Mittemeijer: Acta Mater.58 (2010) 6542.10.1016/j.actamat.2010.08.019Search in Google Scholar

[26] Y.C.Liu, F.Sommer, E.J.Mittemeijer: Acta Mater.51 (2003) 507.10.1016/S1359-6454(02)00434-2Search in Google Scholar

[27] Y.C.Liu, F.Sommer, E.J.Mittemeijer: Metall. Mater. Trans. A39 (2008) 2306.10.1007/s11661-008-9601-7Search in Google Scholar

[28] Y.C.Liu, F.Sommer, E.J.Mittemeijer: Acta Mater.56 (2008) 3833.10.1016/j.actamat.2008.04.015Search in Google Scholar

[29] G.Ghosh, V.Raghavan: Scripta Metall. Mater.20 (1986) 849.Search in Google Scholar

[30] Y.C.Liu, F.Sommer, E.J.Mittemeijer: Inter. J. Mat. Res.99 (2008) 925.Search in Google Scholar

[31] F.K.LeGoues, H.I.Aaronson: Acta Metall. Mater.32 (1984) 1855.10.1016/0001-6160(84)90243-8Search in Google Scholar

[32] J.D.Robson, Mat. Sci. Techn.20 (2004) 441.10.1179/026708304225016725Search in Google Scholar

[33] R.Kampmann, T.Ebel, M.Haese: Phys. Status Solidi172 (1992) 295.10.1002/pssb.2221720126Search in Google Scholar

[34] R.P.Setna, J.M.Hyde, A.Cerezo, G.D.W.Smith, M.F.Chrisholm: Appl. Surf. Sci.67 (1993) 368.10.1016/0169-4332(93)90340-HSearch in Google Scholar

[35] R.Bauer, B.F.Rheingans, E.J.Mittemeijer: Metall. Mat. Trans. A (2011)10.1007/s11661-010-0594-7.Search in Google Scholar

[36] R.Döhl, M.P.Macht, V.Naundorf: Phys. Status Solidi A86 (1984) 603.Search in Google Scholar

Received: 2011-2-22
Accepted: 2011-5-4
Published Online: 2013-06-11
Published in Print: 2011-07-01

© 2011, Carl Hanser Verlag, München

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  5. Words of Welcome
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  24. Laudationes
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https://doi.org/10.3139/146.110537
Keywords for this article
Solid state phase transformation kinetics; Isothermal and isochronal transformations; Crystallization; Normal and abnormal massive transformation; Precipitation

Articles in the same Issue

  1. Contents
  2. Contents
  3. Editorial
  4. Max Planck Institute for Metals Research – 90 Years of Excellence in Materials Science
  5. Words of Welcome
  6. Words of Welcome
  7. Feature
  8. Magnetism studied with circularly polarized X-rays
  9. Solid state phase transformation kinetics: Evaluation of the modular transformation model
  10. Intelligent induction of active biosystem responses at interfaces
  11. Empirical Inference
  12. The Stuttgart Center for Electron Microscopy at the Max Planck Institute for Metals Research
  13. The filamentary growth of metals
  14. Kinetics of interface-controlled phase transformations: atomistic and mesoscopic simulations
  15. Breakthroughs in understanding elastic grain interaction and whisker formation made possible by advances in X-ray powder diffraction
  16. Ordered and disordered states in NiAs/Ni2In-type Ni1+δSn: Crystallography and order formation
  17. Of fluctuations and cross-correlations: finding order in disorder
  18. Experimental characterization of tumor spheroids for studies of the energetics of tumor growth
  19. Soft lithography detects partial mechano-sensoric blindness to micrometre topography in cultured aged and diseased cells
  20. The sweet coat of living cells – from supramolecular structure and dynamics to biological function
  21. Nonlinear spectroscopy of bio-interfaces
  22. Dedicated beamlines for in-situ investigations of materials in reduced dimensions
  23. People
  24. Laudationes
  25. Review
  26. Book review
  27. DGM News
  28. DGM News
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