Abstract
Examples of plastic deformation related to dislocation movements in ceramic materials are reported. Specific properties of dislocations and associated microscopic mechanisms in some ceramic materials (Gd3Ga5O12, ß Si3N4, ZrO2, A1N, SiC) that have been investigated at LMP are reviewed in relation with lattice structure and bonding. Mechanical behaviour related to the observed microstructures is discussed and compared to that of metallic and semiconductor materials.
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References
Rabier, J and Garem, H. (1984) Plastic deformation of oxides with garnet structure, in R.E Tressler and R.C. Bradt (edts), Deformation of ceramic materials II, Plenum Press, New York, 187–198.
Cordier P. (1999), Private communication.
Rabier, J., Veyssière, P. and Grilhé, J., (1976) Possibility of stacking faults and dissociation of dislocations in the garnet structure, Phys. Stat. Sol (a) 35, 259.
Garem, H., Rabier, J., and Veyssière, P. (1982) Slip systems in Gadolidium Gallium Garnet single crystals, J. of Mater. Science 17, 878.
Christian, J.W (1970), Plastic deformation of BCC metals, in Second Int. Conf on the Strength of Metals and Alloys, Am Soc. for Metals 1, 37.
Hirsch, P.B., (1960) Oral communication in 3rd Int Congress on Crystallography’’, Cambridge.
Kubin, L.P. (1976) Déformation plastique et microscopie électronique des métaux et alliages de structure cubique centrée, J. Microsc. Spectrosc. Electron., 1, 585
Grün, R.(1979) The crystal structure of ß-Si3N4 Acta Cryst. B 35, 880.
Evans A. G. and Sharp J. V.(1971) Microstructural studies on silicon nitride, J. Mater. Sci. 6, 292.
Milhet, X., Demenet, J.L. and Rabier, J. (1998) Stacking faults and phase transformations in Silicon nitride, The European Physical Journal, A. P. 4, 149.
Milhet, X., Demenet, J.L. and Rabier, J. (1999) Glide dislocations in ß silicon nitride, Phil Mag. Lett. 79, 19.
Milhet, X., (1999) “Plasticité et dislocations du Nitrure de Silicium de structure ß. Étude par microscopie électronique en transmission”, Thèse, Université de Poitiers.
Teracher, P. (1990) “Propriétés mécaniques de la zircone cubique monocristalline: Dislocations et plasticité” Thèse, Université de Poitiers.
Teracher, P., Garem, H.and J. Rabier. (1991) Dislocation mobilities and plastic deformation of ZrO2 single crystals Brandon, R. Chain and A. Rosen edts (Freund Pub Co. Strength of metals and alloys, ICSMA9 1, 217.
Gaboriaud, R. J., Boisson, M. and Grilhé, J. (1975) Calculs d’énergie de faute d’empilement dans la structure fluorine J. Phys. C 8, 3499.
Veyssière, P. (1988) Dislocation core effects in plasticity, Rev. Phys. Appl. 23, 431.
Courret, A. and Caillard, D. (1985) An in situ study of prismatic glide in magnesium-I The rate controlling mechanism, Acta Met. 33, 1447.
Naka, S. (1983) Thèse Université Paris-Sud, Orsay.
Skrotzki, W.and Haasen, P. (1981) Hardening mechanisms in ionic crystals on {110} and {100} slip planes, J. Phys. (Paris) 42, C3–119.
Andersen, N.H., Clausen, K., Hackett, M. A., Hayes, W., Hutchings, M. T., Mac Donald, J.E.and Osborn, R. (1986) The defect structure of yttria-stabilised zirconia, studied by quasielastic neutron scattering, Physica 136 B, 315.
George, A and Rabier J.(1987) Dislocation and Plasticity in semiconductors I — Dislocation structure and dynamics, Rev. Phys. Appl. 22, 941.
Denanot M.F. and J. Rabier, J. (1989) TEM study of dislocations in A1N, Int. Phys. Conf. Series 100 5
Audurier, V., Demenet, J.I., and Rabier, J.(1998) A1N plastic deformation between RT and 800°C, I Deformation microstructures, Phil Mag A 77, 825.
Demenet, J.L., Garem, H and Rabier, J. (1989) Microstructure of sintered α-SiC deformed below 1000°C, Int. Phys. Conf. Series 100, 5, 445.
Maeda, M., K. Suzuki, M., Fujita, S., Ichihara, M.and Hyodo, S. (1988) Defects in plastically deformed 6H SiC single crystals studied by transmission electron microscopy, Phil Mag A 57, 573.
Ning, X.J., Hurvey, N. and Pirouz, P. (1997) Dislocation cores and hardness polarity of 4H-SiC, J. Am. Ceram. Soc. 80, 1645.
P. Boivin, J. Rabier and H. Garem (1990) Plastic deformation of GaAs single crystals as a function of electronic doping. II. low temperatures (20–300°C), Phil. Mag. A 61, 647.
Hirsch, P. B (1979) A mechanism for the effect of doping on dislocation mobility J. Physique Colloq. 40 (1979) C6–117.
Rabier, J. and Boivin, P. (1990) Dislocation mobilities and low temperature macroscopic plasticity of III–V compound semiconductors, Phil. Mag. A 61, 673.
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Rabier, J. (2000). Dislocation Plasticity in Ceramic Materials. In: Lépinoux, J., Mazière, D., Pontikis, V., Saada, G. (eds) Multiscale Phenomena in Plasticity: From Experiments to Phenomenology, Modelling and Materials Engineering. NATO Science Series, vol 367. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-4048-5_37
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DOI: https://doi.org/10.1007/978-94-011-4048-5_37
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