Geology Reference
In-Depth Information
Taylor GI (1934) The mechanism of plastic deformation of crystals. Part I. Theoretical, Proc Roy
Soc (London), A 145, 362-387
Taylor GI (1938) Plastic strain in metals. J Inst Metals 62:307-324
Thomas de Montpreville C (1983) Modèles tridimensionels pour le calcul des comportments
mécanique des alliages polyphasés. Res Mechanica 7:211-230
Thompson N, Millard DJ (1952) Phil Mag 43:422
Tomé C, Canova GR, Kocks UF, Christodoulu N, Jonas JJ (1984) The relation between macroscopic
and microscopic strain hardening in f.c.c. polycrystals. Acta Metall 32:1637-1653
Tungatt PD, Humphries FJ (1981) An in situ optical investigation of the deformation behaviour of
sodium nitrate—an analogue for calcite. Tectonophysics 78:661-675
Tungatt PD, Humphries FJ (1984) The plastic deformation and dynamic recrystalization of
polycrystalline sodium nitrate. Acta Metall 32:1625-1635
Underwood EE (1970) Quantitative stereology. Addison-Wesley Publishing, 274 pp
Vanderschaeve G, Escaig B (1979) Glissement dévié des dislocations. In: Dislocations et
Déformations Plastique. Ecole d'été d'Yravals, 3-14 Sept 1979, Paris, Les Editions de
Physique, pp 141-148
Vitek V (1985) Effect of dislocation core structure on the plastic properties of metallic materials.
In: Dislocations and properties of real materials. The Institute of Metals, London, pp 30-50
von Mises R (1928) Mechanik der plastischen Formänderung von Kristallen. Zeit für angewandte
Math U Mech 8:161-185
Waff HS, Bulau JS (1979) Equilibrium fluid distribution in an ultramafic partial melt under
hydrostatic stress conditions. J Geophys Res 84:6109-6114
Weertman J (1955) Theory of steady-state creep based on dislocation climb. J Appl Phys
26:1213-1217
Weertman J (1957) Steady-state creep of crystals. J Appl Phys 28:1185-1189
Weertman J (1968) Dislocation climb theory of steady-state creep. Trans Am Soc Metals
61:681-694
Weertman J (1975) High temperature creep produced by dislocation motion. In: Li JCM,
Mukherjee AK (eds) Rate processes in plastic deformation of materials. Proceedings of John
E. Dorn Symposium American Society on Metals, Oct. 1972, Metals Park, Ohio, pp 315-336
Weertman J (1977) Theory of internal stress for class I high temperature alloys. Acta Metall
25:1393-1401
Weertman J, Weertman JR (1964) Elementary dislocation theory. MacMillan, New York, 213 pp
Weertman J, Weertman JR (1980) Moving dislocations. In: Nabarro FRN (ed) Dislocations in
solids. Amsterdam, North-Holland, pp 1-59
Weertman J, Weertman JR (1983a) Mechanical properties, mildly temperature-dependent. In:
Physical metallurgy, 3rd edn. North Holland Physics Publishing, Amsterdam, pp 1259-1307
Weertman J, Weertman JR (1983b) Mechanical properties, strongly temperature-dependent. In:
Physical metallurgy, 3rd edn. North Holland Physics Publishing, Amsterdam, pp 1309-1340
Weertman J, Weertman JR (1992) Elementary dislocation theory. Oxford University Press,
Oxford, 213 pp
Wegner MW, Christie JM (1985a) General chemical etchants for microstructures and defects in
silicates. Phys Chem Min 12:90-92
Wegner MW, Christie JM (1985b) Chemical etching of amphiboles and pyroxenes. Phys Chem
Min 12:86-89
Wenk H-R (ed) (1985) Preferred orientation in deformed metals and rocks: an introduction to
modern texture analysis. Academic, Orlando
Whitworth RW (1975) Charged dislocations in ionic crystals. Adv Phys 24:203-304
Wolf H (1960) Die Aktivierungsenergie für die Quergleitung aufspaltener Schraubenversetzun-
gen. Zeit Naturforschung A 15:180-193
Yund RA, Tullis J (1983) Strained cell parameters for coherent lamellae in alkali feldspars and
iron-free pyroxenes. N Jb Miner Mh Jg 1983:22-34
Zener C (1948) Elasticity and anelasticity of metals. University of Chicago Press, Chicago 170 pp
