Abstract
A fundamental understanding of grain-growth phenomena provides a means to predict and control many of the observed material properties. This article reviews the development and present state of analytical theories of grain growth. The major geometric, dynamic, and statistical factors that must be considered in a rigorous formulation of grain dynamics are outlined.
Similar content being viewed by others
References
H.V. Atkinson, Acta Met., 36 (1988), p. 469.
S.K. Kurtz and F.M.A. Carpay, J. Appl. Phys., 51 (1980), p. 5725.
M. Hillert, Acta Met., 13 (1965), p. 227.
F.N. Rhines, C.R. Craig, and R.T. DeHoff, Met. Trans., 5 (1974), p. 413.
M.A. Fortes and A.C. Ferro, Acta Met., 33 (1985), p. 1697.
Y. Takayama et al., Mat. Trans. JIM, 32(3) (1991), p. 214.
E.E. Underwood, Quantitative Stereology (Reading, MA: Addison-Wesley, 1970).
W.W. Mullins, J. Appl. Phys., 59 (1986), p. 1341.
W.W. Mullins and J. Viñals, Acta Met., 37 (1989), p. 991.
H.D.H. Carpenter and C.R. Elam, J. Inst. Met., 24 (1920), p. 83.
C.S. Smith, Metal Interfaces (Materials Park, OH: ASM, 1952), p. 65.
T. Sutoki, Sci. Rep. Tohoku Univ., 17 (1928), p. 857.
D. Harker and E.R. Parker, TrailS. ASME, 34 (1945), p. 156.
J.W. Cahn, Acta Met., 10 (1962), p. 789.
M. Hillert, Acta Met., 36 (1988), p. 3177.
J. E. Burke and D. Turnbull, Prog. Metal Phys. III (London: Pergamon Press, 1952), p. 220.
S.K. Kurtz and F.M.A. Carpay, J. Appl. Phys., 51 (1980), p. 5745.
P. Feltham, Acta Met., 5 (1957), p. 97.
I.M. Lifshitz and V.V. Slyozov, J. Phys. Chem. Solids, 19 (1961), p. 35.
N.P. Louat, Acta Met., 22 (1974), p. 721.
H. Hu, Can. Metall. Q., 13 (1974), p. 275.
K. Okazaki and H. Conrad, Trans. Japan Inst.Met., 13 (1972), p. 198.
S.P. Marsh et al., Acta Met. Mater.,(1992) (in press).
C.S. Pande, Acta Met., 35 (1987), p. 2671.
D.J. Srolovitz et al., Acta Met., 32 (1984). p. 793.
M.E. Glicksman and K. Rajan, private communication.
N.G. Van Kampen, Stochastic Processes in Physics and Chemistry (Amsterdam, the Netherlands: North Holland, 1981).
O. Hunderi and N. Ryum, Acta Met. Mater., 40 (1992), p. 1069.
J.E. Morral and M.F. Ashby, Acta Met., 22 (1974), p. 567.
J. von Neumann, Metal Interfaces (Materials Park, OH: ASM, 1952), p. 108.
W.W. Mullins, J. App. Phys., 27 (1956), p. 903.
W.W. Mullins, Acta Met., 37 (1989), p. 2979.
V.E. Fradkov, Phil. Mag. Lett., 58 (1988), p. 271.
V.E. Fradkov, D.G. Udler, and R.E. Kris, Phil. Mag. Lett., 58 (1988), p. 277.
G. Abbruzzese, J. Heckeimann, and K. Lücke, Acta Met. Mater., 40 (1992), p. 519.
K. Liicke, I. Heckelmann, and G. Abbruzzese, Acta Met. Mater., 40 (1992), p. 533.
C.S. Pande, Acta Met., 36 (1988), p. 2161.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Pande, C.S., Marsh, S.P. The analytical modeling of normal grain growth. JOM 44, 25–29 (1992). https://doi.org/10.1007/BF03222322
Issue Date:
DOI: https://doi.org/10.1007/BF03222322