Abstract
Microstructural studies of metals and materials using transmission electron microscopy frequently involve the correlation of information present in both images and diffraction patterns. This process may be relatively easy if the interpretation of the images and diffraction patterns is simple. However, in many cases the interpretation of both images and diffraction patterns is difficult because a whole range of different finely dispersed crystal defects may be present simultaneously. Such problems frequently arise in complex commercial alloys when detailed quantitative interpretation of the microstructure can be extremely difficult. The following problems are typical.
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Allan, P., Crellin, E. B., and Bevis, M. (1973). Phil. Mag., 27, 127.
Andrews, K. W., Dyson, D. J., and Keown, S. R. (1971). Interpretation of Electron Diffraction Patterns, Hilger, London.
Ashbee, K. H. G., and Smallman, R. E. (1963). Proc. Roy. Soc. (London), Ser. A, 274, 195.
Ashbee, K. H. G., Smallman, R. E., and Williamson, G. K. (1963). Proc. Roy. Soc. (London), Ser. A, 276, 542.
Ashby, M. F. (1964). Z. Metallk., 55, 5.
Auld, J. H., and Cousland, S. McK. (1971). Scripta Met., 5, 765.
Bagaryatski, Y. A. (1950). Dokl. Akad. Nauk SSSR, 73, 1161.
Baker, R. G., and Nutting, J. (1959). Precipitation processes in steels. Iron and Steel Institute, Spec. Rept., No. 64.
Balcerzack, A. T., and Sass, S. L. (1972). Met. Trans., 3, 1601.
Bates, T. F., and Corner, J. J. (1959). Clay andClay Minerals (Proc. 6th Natl. Clay Conf.), 6, 237.
Beech, J., and Warrington, D. H. (1966). J. Iron Steel Inst. (London), 204, 460.
Bevis, M., and Crellin, E. B. (1971). Polymer, 12, 666.
Billingham, J., Bell, P. S., and Lewis, M. H. (1972). Phil. Mag., 25, 661.
Bjornhang, A., Ellefsen, O., and Tonnesen, B. A. (1954). J. Polymer Sci., 12, 621.
Blackburn, M. J., and Williams, J. C. (1967). Trans. AIME, 239, 287.
Boyd, J. D. (1969). Quart. Trans. Am. Soc. Metals, 62, 977.
Boyd, J. D. (1970). The Science, Technology and Appli-cations of Titanium (eds. R. I. Jaffee and N. E.Promisel), Pergamon Press, Oxford, p. 545.
Bunn, C. W. (1939). Trans. Faraday Soc., 35, 482.
Clarebrough, L. M. (1971). Aust. J. Phys., 24, 79.
Cowley, J. M. (1973a). Acta Cryst., 29, 529.
Cowley, J. M. (1973b). Acta Cryst., 29, 537.
Davenport, A. T. (1968). J. Iron Steel Inst. (London), 206, 499.
Davenport, A. T., Berry, F. G., and Honeycombe, R. W. K. (1968). Met. Sci. J., 2, 104.
Davenport, A. T., and Honeycombe, R. W. K. (1971). Proc. Roy. Soc. (London), Ser. A, 322, 191.
Degischer, H. P. (1972). Phil. Mag., 26, 1137.
Dippenaar, R. J., and Honeycombe, R. W. K.(1973). Proc. Roy. Soc. (London), Ser. A 333
Dyson, D. J., and Andrews, K. W. (1969). J. Iron Steel Inst. (London), 207, 208.
Embury, J. D., and Nicholson, R. B. (1965). Acta Met., 13, 403.
GjOnnes, J., and Simensen, Chr. J. (1970). Acta Met., 18, 881.
Goldschmidt, H. J. (1967). Interstitial Alloys, Butterworths, London.
Grubb, D. T., and Groves, G. W. (1971). Phil. Mag., 24, 815.
Grubb, D. T., Keller, A., and Groves, G. (1972a). J. Mater. Sci., 7, 131.
Bates, T. F., (1972b). J. Mater. Sci., 7, 822.
Hannick, R. J., Murray, M. J., and Packer, M. E. (1971). Phil. Mag., 24, 1179.
Hay, I. L., and Keller, A. (1970). J. Polymer Sci., B4, 481.
Head, A. K. (1967). Aust. J. Phys., 20, 557.
Hilliard, J. E. (1962). Trans. AIME, 224, 906.
Howie, L. M., McGurn, J. F., and Gilbert, R. W. (1966). Acta Met., 14, 801.
Humble, P. (1968). Aust. J. Phys., 21, 325.
Jagodzinski, H., and Kunze, G. (1954). Nues, Jahrb. Mineral. Mh. p. 137.
Jones, P. J., and Edington, J. W. (1972a). Met. Trans., 3, 2706.
Jones, P. J., (1972b). Phil. Mag., 25, 729.
Jones, P. J., (1973). Phil. Mag., 27, 393.
Kear, B. H., Leverant, G. R., and Oblak, J. M.,1969, Quart. Trans. Am. Soc. Metals, 62, 639.
Keown, S. R., and Dyson, D. J. (1966). J. Iron Steel Inst. (London), 204, 832.
Kiho, H., Peterlin, A., and Geil, P. H. (1964). J. Appl. Phys., 35, 1599.
van Landuyt, J. (1966). Phys. Stat. Sol., 16, 585.
van Landuyt, J., Gevers, R., and Amelinckx, S. (1964). Phys. Stat. Sol., 7, 307.
van Landuyt, J., (1965). Phys. Stat. Sol., 9, 135.
van Landuyt, J., (1966a). Phys. Stat. Sol., 13, 467.
van Landuyt, J., (1966b). Phys. Stat. Sol., 18, 167.
Lewis, M. H., Billingham, J., and Bell, P. S. (1972). Electron Microscopy and Structure of Materials (eds. G. Thomas, R. M. Fulrath and R. M. Fisher ), University of California Press, Berkeley, California, p. 1084.
Loretto, M. H., Clarebrough, L. M., and Humble, P. (1966). Phil. Mag., 13, 953.
Loretto, M. H., and France, L. K. (1969). Phil. Mag., 19, 141.
McCabe, K. K., and Sass, S. L. (1971). Phil. Mag., 23, 957.
McConnell, J. D. C. (1971). The Cambridge Review, 8, 12.
McIntyre, K. G., and Brown, L. M. (1966). J. Phys. Radium, 27, C3–178.
Maher, D. M., and Eyre, B. L. (1971). Phil. Mag., 23, 409.
de Novion, C. H. (1966). Compt. Rend., 263, 775.
Oblak, J. M., and Kear, B. H. (1972). Electron Microscopy and Structure of Materials (eds. G. Thomas, R. M. Fulrath and R. M. Fisher), University of California Press, Berkeley, California, p. 566.
Partridge, P. G. (1967). Met. Rev., 12, No. 118, 169.
Pashley, D. W., and Presland, A. E. B. (1961). Phil. Mag., 6, 1003.
Pitsch, W. (1962). Acta Met., 10, 79 (errata, 10, 906).
Rowcliffe, A. F., and Eyre, B. L. (1971). J. Phys. F, 1, 771.
Rudee, M. L. (1972). Electron Microscopy, and Strength of Materials (eds. G. Thomas, R. M. Fulrath and R. M. Fisher ), University of California Press, Berkeley, California, p. 1064.
Ryder, P. L., and Pitsch, W. (1968). Phil. Mag., 18, 807.
Sanderson, G., and Scully, J. C. (1967), Trans. AIME, 239, 1883.
Sass, S. L. (1969), Acta Met., 17, 813.
Sass, S. L. (1971). J. Appl. Cryst., 4, 252.
Scheil, E. (1935). Z. Metallk., 27, 199.
Schmalzried, H., and Gerold, V. (1958), Z. Metallk., 49, 291.
Silcock, J. M., Davies, M. H., and Hardy, H. K.(1956). Symp. on the Mechanism of Phase Trans-formations in Metals Institute of Metals,London, p. 93.
Silcock, J. M., and Denham, A. W. (1969). The Mechanism of Phase Transformations in Crystalline Solids, Institute of Metals, London, p. 59.
Silcock, J. M., and Tunstall, W. (1964). Phil. Mag., 10, 361.
Singhall, K., and Martin, J. W. (1968). Trans. AIME, 242, 814.
Smallman, R. E. (1970). Modern Physical Metallurgy, Butterworths, London.
Speich, G. R. (1962). Trans. AIME, 224, 850.
Tekin, E., and Kelly, P. M. (1965). J. Iron Steel Inst. (London), 203, 715.
Tufton, P. J. (1963). Ph.D. Thesis University of Cambridge.
Tunstall, W. J. (1969). Phil. Mag., 20, 701.
Venables, J. D., Kahn, D., and Lye, R. G. (1968). Phil. Mag., 18, 177.
Westmacott, K. H., Smallman, R. E., and Dobson, P. S. (1968). Met. Sci. J., 2, 177.
Wilcox, B. A., and Clauer, A. H. (1969). Met. Sci. J., 3, 26.
Yada, K. (1971). Acta Cryst., A27, 659.
Yakel, H. L. (1958). Acta Cryst., 11, 46.
Yeh, G. S. Y. (1972). J. Macromol. Sci. Phys., B6, 451.
Yeh, G. S. Y., and Geil, P. H. (1968). J. Macromol. Sci. Phys., B2, No. 1, 29.
Yoo, M. H., and Wei, C. T. (1967). J. Appl. Phys., 38, 4317.
Andrews, K. W., Dyson, D. J., and Keown, S. R. (1971). Interpretation of Electron Diffraction Patterns Hilger, London.
Barrett, C. S., and Hassalski, T. B. (1968). Structure of Metal and Alloys, McGraw-Hill, New York.
Johari, O., and Thomas, G. (1970). The stereographic projection and its applications. Techniques in Metals Research (ed. R. F. Bunsah), vol. 2C, Wiley, New York.
Metzbower, E. A. (1969). Trans. A.I.M.E., 245, 435.
Otte, H. M., and Crocker, A. G. (1965). Phys. Stat. Sol., 9, 441.
Otte, H.M. (1966). Phys. Stat. Sol. 16 K25.
Rarey, C. R., Stringer, J., and Edington, J. W. (1966). Trans. A.I.M.E., 236, 811.
Andrews, K. W., Dyson, D. J., and Keown, S. R.Interpretation of Electron Diffraction Patterns Hilger-Watts, London.
Barrett, C. S. (1971). Structure of Metals, McGraw-Hill, New York.
Andrews, K. W., Dyson, D. J., and Keown, S. R. (1971).Interpretation of Electron Diffraction Patterns Hilger, London.
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© 1976 N. V. Philips’ Gloeilampenfabrieken, Eindhoven
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Edington, J.W. (1976). Typical Electron Microscope Investigations. In: Typical Electron Microscope Investigations. Philips Technical Library. Palgrave, London. https://doi.org/10.1007/978-1-349-02682-1_1
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