ABSI A. (1990); Vibration Et Dynamique Des Structures: Propagation Des Ondes . 2Ieme Partie

1

8e symposium de mécanique des roches, Proceedings of the Eighth Symposium on Rock Mechanics, held at the University of Minnesota, September 15-17th, 1966, failure and breakage of rock.

ABSI A. (1990); “Vibration et dynamique des structures: propagation des ondes”. 2ieme partie, Annales de l’I.T.B.T.P., N° 489, pp. 1-22.

ACKERLEY S.K., HELLINGS J.E. and JARDINE R.J., 1987, Discussion on: A new device for measuring local axial strains on triaxial specimens. Géotechnique, Vol. 37, N°3, pp. 413-417.

ADACHI T., OKA F., & YASHIMA A 1991. A finite element analysis of strain localization for soft rock using a constitutive equation with strain softening Arch. Appl. Mech. 61:183-191.

AL-CHALABI M. and HUANG C.L (1974). Stress distribution within circular cylinders in compression. Int. J. Rock Mech. Min. Sci. & Geomech. Abstr; 11, 45-56.

ALDRICH, M.J.: Pore pressure effects on Berea sandstone subjected to experimental deformation. Geol. Soc. Am. Bull., Vol. 80, No. 8, Aug., 1969, pp. 1577-1586.

ALEKSEEV A.D., ZHURAVLEV V.I., YAROVAYA L.I. and MOLCHANENKO V.S.: Effect of the geometry and fracturing of rock specimens on their strength. Sov. Min. Sci., No. 3, May-June, 1970, pp. 281-285.

ANTONELLINI M.A., AYDIN A. And POLLARD D.D., Journal of structural geology, vol.16, N°7, pp 941-959, 1994, "Microstructure of deformation bands in porous sandstones at Arches National Park,Utah".

ARMERO F. & GARIKIPATI K. 1995. Recent advances in the analysis and numerical simulation of strain localization in inelastic solids. In D.R.J. Owen, E. Onate , & E. Hinton (eds.), GIMNE, Proceedings of Computational Plasticity IV, Barcelona, Spain, April 1995: 547-561.

ARTHUR J.R.F., and DUNSTAN T., “Rupture layers in granular materials”, In IUTAM Conf. Def. Fail. Gran. Media, Delft (NL), pp. 453-459, 1982.

ARTHUR J.R.F., DUNSTAN T., AL-ANI Q.A.J.L. and ASSADI A., “Plastic deformation and failure in granular media”, Géotechnique, Vol. 27, pp. 53-74, 1997.

A.S.T.M. Standard test method for laboratory determination of pulse velocities and ultrasonic elastic constants of rock; in annual book of ASTM Standards, Vol. 04.08, pp. 242-246 (1994).

A.S.T.M.: Designation: C170-41T, A.S.T.M. Standards-Part2, 1942, pp. 1102-1104.

A.S.T.M.: Tentative method of test for compressive strength of natural building stone.

ASHBY M.F. and HALLAM S.D., 1986, "The failure of brittle solids containing small cracks under compressive stress states. Acta. Metall., vol. 34, pp 497-510

AUBRY D. et MODARESSI A. (1991), "Analyse des conditions de discontinuité des déformations dans un milieu endommagé orienté", Compte rendu, Groupement Géomécanique des roches profondes.

AYDIN A., 1978 : Small faults formed as deformation bands in sandstone. Pure appl. Geophys., 116, 913-930.

AYDIN Atilla, JOHNSON Arvid M. : Analysis of faulting in porous sandstones. Journal of Structural Geology, vol. 5, No 1, pp. 19-31, 1983.

BALLA A.A. New solution of the stress conditions in triaxial compression. Acta tech. Hung. 28, 349-387 (1960).

BALLIVY G., DAOUD M. and SALEH K., 1992. Comportement physico-mécanique des roches sous l’effet de l’humidité relative ambiante. In Actes du Colloque René Houpert: Structure et comportement mécanique des géomatériaux, Nancy (France). 10-11 Septembre 1992, pp. 247-256.

BARENBLATT, G.I. (1992). Micromechanics of fracture. Theoretical and applied Mechanics, Proc; 18th Int. Cong. Theor. Appl. Mech., Haifa, Israel (S.R. Bodner, J. Singer, A. Solan, eds), Elsevier, Amsterdam, 25-52.

BARNARD, P.R. : Researches into the complete stress-strain curve for concrete. Mag. Concr. Res; 16, 203-210 (1964).

BARRON K. : Detection of fracture initiation in rock specimens by the use of a simple ultrasonic listening device. Int. J. Rock Mech. Sci. 8, 55-59 (1971).

BARTON N., The shear strength of rock and rock joints, Int. J. Rock Mech. Min. Sci. & Geomech. Abstr., 13, 225-279, 1976.

BASCOUL A., BENAIJA E.H., BERTHAUD Y., FOND C., MASSAT M., & TORRENTI J.M. (1993), “Analysis of localization in concrete and rocks trough stereophotogametry, speckle laser and replica”. Cement and concrete Research, Vol. 26, N°6, pp. 1340-1350.

BAUER E et HUANG W. : "Effect of initial anisotropy on shear banding in granular materials". Numerical models in Geomechanics, proceedings of the 7th International Symposium on numerical models in geomechanics, Numog VII. Graz, Austria. Numog 1999/09/01-03

BAUER E et HUANG W. : Numerical study of polar effects in shear zones.

Numerical models in Geomechanics, proceedings of the 7th International Symposium on numerical models in geomechanics, Numog VII. Graz, Austria. Numog 1999/09/01-03

BAUER S.J & JOHNSON B. (1979) “Effects of slow uniform heating on the physical properties of the westerly and Charcoal granities”. Proc. 20th. US; Symp. Rock Mech. Austin, Texas, pp. 7-18.

BAZANT Z.P. Instability, ductility and size effect in strain softening concrete. J. Engng mech. ASCE 102, 331-344 (1976).

BAZANT Z.P., (1984) Size effect in blunt fracture: concrete, rock metal. J. Engng Mech. ASCE 110, 518-535.

BAZANT Z.P., BELYTSHCHKO T.B. and CHANG T.P. Continuum theory for strain softening. J. Eng. Mech. ASCE 110, 1666-1692(1984).

BAZANT Z.P, LIN F.B., LIPPMAN H., Fracture Energy Release and Size Effect in Borehole Breakout. Int. J. Num. Anal. Meth. Geomech. Vol. 17, pp. 1-14 (1993).

BAZANT Z.P., & PIJAUDIER-CABOT G. 1988. Nonlocal continuum damage, localization instability and convergence. J. Appl. Mech., 55:287-293.

BECKMAN, R.T. : Compressive strength versus length-diameter ratios of potash specimens. U.S. Bureau of Mines Report of Investigations ( U.S.B.M.R.I.) 6339, 1963, 15 p.

BENAIJA E.H. (1992), “Application de la stéréophotogrammétrie au béton. Cas de la compression simple”. Thèse de Doctorat, Ecole nationale des Ponts et Chaussées.

BENAIJA E. H., BOULAY C., DELAHOUSSE, DUBUET, TORRENTI J.M., BERTAUD Y. & FOND C. (1990), “Etude de la localisation dans un grès des Vosges”. Rapport scientifique, Gréco Géomatériaux 1990, pp. 181-184.

BENALLAL A., BILLARDON R; and GEYMONAT G. Bifurcation and localization in rate-independent materials. Some general considerations. Rapport interne n°136, Laboratoire de mécanique et technologie, ENS Cachan et CISM lecture notes on bifurcation and stability of Dissipative systems, Ed. Nguyen Quoc Son, Springer (1992).

BENALLAL, 1992, Application de la stéréophotogammétrie au béton: cas de la compression simple. Thèse de Doctorat de l’école nationale des Ponts et Chaussées, Paris.

BENALLAL A., BILLARDON R., GEYMONAT G. (1988). Some mathematical aspects of damage softening rate problem. In : Cracking and damage (J. Mazars and Z.P. Bazant eds), Elsevier, 247-258.

BENALLAL A., BILLARDON R., GEYMONAT G. (1989). Conditions de bifurcation à l’intérieur et aux frontières pour une classe de matériaux non standards. C.R. Acad. Sci., Paris 308, série II, 893-898.

BENEFICE P. AND BOEHLER J.P., “The application of stereophotogrammetry to the analysis of displacement fields in solid mechanics”, Proc. IUTAM conf. On optical Methods in Mechanics of Solids, 1979.

BEREST P., BERGUES J. et DUC N.M. (1979) “ Comportement des roches au cours de la rupture : application à l’interprétation d’essais sur des tubes épais”. Revue française de Géotechnique, No. 9, pp. 5-12

BERNAIX J. (33-35) : New Laboratory methods of studying the mechanical properties of rock. Int. J. Rock Mech. Min. Sci. 6, 43-90 (1969).

BERRY, D.S. 1960 An elastic treatment of ground movement due to mining-1, Isotropic ground, J.Mech, Phys Solids 8, 280-92.

BERRY J.P. Some kinetic considerations of the Griffith criterion for fracture-1. Equations of motion at constant force. J. Mech. Phys. Solids 8, 194-206 (1960).

BERTHAUD Y. (1987), “mesure de l’endommagement mécanique du béton par méthode ultrasonore”1er Congrés Int. RILEM, Paris.

BERTHAUD Y. (1991), “Mesures et modélisations de l’endommagement des matériaux”. Mémoire d’habilitation à diriger des recherches, Université de paris 6.

BESUELLE P., Thèse de Doctorat à l'Université Joseph Fourier, Grenoble I : Déformation et rupture dans les roches tendres et les sols indurés: comportment homogène et localisé. 1998.

BESUELLE P. and DESRUES J., 1998, Internal instrumentation for strain measurements on soft rocks tested in an axisymmetric triaxial cell. In 2nd int. Symp. Hard Soils and Soft Rocks: The Geotechnique of hard soils and soft rocks, Napoli, October 1998, ed. by Evangelista A. and Picarelli L., Balkema, Vol. 1, pp. 45-48.

BESUELLE P., and DESRUES J., 1998, Homogeneous and localized deformation in sandstone specimens tested in a triaxial cell. In 2nd *int. Symp. Hard Soils and Soft Rocks : The Geotechnique of hard soils and soft rocks, Napoli, October 1998, ed., by Evangelista A. and Picarelli L., Balkema, Vol. 1, pp. 37-44.

BEYNET J.M et TRAMPEZYUSKI W., 1977, Application de stéréephotogammétrie à la mesure des déplacements et à l’étude de l’écoulement des matériaux. Matériaux et constructions, Vol. 10:9, pp. 281-283.

BIEGEL Ronald L., SAMMIS Charles G., DIETERICH James H. : The frictional properties of a simulated gouge having a fractal particle distribution. Journal of Structural Geology, vol. 11, No 7, pp. 827 to 846, 1989.

BIENIAWSKI, Z.T.: Deformational behavior of fractured rock under multiaxial compression. In: Structure, Solid Mechanics and Engineering Design. Te’eni, M. (ed.). Proc; Southampton 1969 Civil Engineering Materials Conference. London: Wiley-Interscience 1971, pp. 589-598.

BIENIAWSKI Z.T : Fracture dynamics of rock. Int. J. Fract; Mech. 4, 415-430 (1968b).

BIENIAWSKI Z.T.: Mechanism of brittle fracture of rock. Part I. Theory of the fracture process; Part II. Experimental studies; Part III. Fracture in tension and under long-term loading. Int. J. Rock Mech. Min Sci. Vol 4, 395-430 (1967a).

BIENIAWSKI Z.T.Mechanism of Rock Fracture in Compression. South African Council Sci. And Ind. Res., Pretoria, South Africa. Meg 459, June 1966, 30 pp.

BIENIAWSKI, Z.T. : Stability concept of brittle fracture propagation in rock. Eng. Geol. 2, 149-162(1967b).

BIENIAWSKI, Z.T. : The compressive strength of hard rocks. Tydskrif vir Natuurwetenskappe, Vol. 8, Nos. 3-4, Sept.-Dec., 1968a, pp. 163-182.

BIENIAWSKI Z.T. : The effect of specimen size on compressive strength of coal. Int. J. Rock Mech. Min. Sci. 5, 325-335 (1968a).

BIENIAWSKI Z.T., DENKHAUS H.G. and VOGLER U.W., 1969, Failure of fractured rock. Int. J. Rock Mech. Min. Sci. & Geomech. Abstr., Vol. 6, pp. 323-341.

BIENIAWSKI, Z.T., DENKHAUS, H.G. and VOGLER, U.W.: Failure of fractured rock. Int. J. Rock Mech. Min. Sci., Vol. 6, No. 3, May, 1969, pp. 323-341.

BIENIAWSKI Z.T., and VAN HERDEN W.L. , the significance of in situ tests on large rock specimens, Int. J. Rock Mech. Min. Sci. & Geomech. Abstr., 12, 101-113, 1975.

BIOLZI L. et LABUZ J.F. :Global instability and bifurcation in beams composed of rock-like materials.

BLUMENFELD S.M and GLOVER G., 1981, Spacial resolution in computed tomography. In Radiology of the skull and brain-technical aspects of computed tomography (edited by T.H. Newton and D.G. Potts) London : C.V. Mosby, Vol. 5, pp. 3918-3940.

BOES D.J. New solid lubricants: their preparation, properties and potential for aerospace applications. IEEE Trans. Aero. 2, 457-466 (1964).

BÖKER R. : Die Mechanik der bleibenden formänderung in Kristallinisch Aufgebauten Korpen. Ver. Deul. Ing. Mitt. Forch., 1915, Vol. 175, pp. 1-51.

BOMBOLAKIS E.G. : Study of the brittle fracture process under unixial compression. Tectonophysics 18, 231-248 (1973).

BOMBOLAKIS E.G.: Photoelastic Investigation of brittle Growth within a field of unixial Compression, Technophysics, 1964, vol. 1, No. 4, pp. 343-351.

BONNEVAL. H., 1972, Photogammétrie générale. Paris: Eyrolles.

BOOZER, G.D., HILLER, K.H. and SERDENGECTI, S.: Effects of pore fluids on the deformation behavior of rocks subjected to triaxial compression. Proc. 5th Symp. Rock Mech., Minneapolis, Minn., 1962, pp. 579-624.

BORDIA S.K. : The effects of size and stress concentration on the Dilatancy and fracture of rock. Int. J. Rock Mech. Min . Sci. 8, 629-640 (1971).

BOSSI R.H., FRIDELL K.D. and LOWREY A.R., 1990, Computed tomography. In Non-destructive testing of fibre-reiforced plastic composites (edited by J. Summerscales) London : Elsevier, Vol. 2, pp. 201-252

BOULAY C. : Conception et préparation d'un essai sur l'étude du couplage entre tenacite et teneur en eau du béton. Mémoire pour obtenir le titre d'ingénieur diplômé par l'Etat. 1988 à l'E.N.S.A.M.. - PARIS.

BOURBIE T., COUSSY O & ZINSZNER N. (1987), “Acoustique des milieux poreux”. Publication de l’IFP, collection: Science et Technique du Pétrole, N°27.

BOURBIE T. et ZINSZNER B., (1985). Journal of Geophysical Research, Vol. 90, N°. B13, Pages 11,524-11,532, November, 10, 1985.

BOWERS R.C., CLINTON W.C and ZISMAN W..A (1953). Frictional behavior of polyethylene, polytetrafluorethylene and halogenetad derivatives. Lubrication Engr. 9, 4, 204-219.

BOYD J. and ROBERTSON B.P., The friction properties of various lubricants at high pressure. Trans. ASME 67, 51-59 (1945).

BRACE W.F : Geophysical Research Letters, Vol.8, N°. 7, Pages 651-652, July 1981. The Effect of Size on Mechanical Properties of Rock.

BRACE, W.F. : Brittle fracture of rocks. Proc. Int. Conf. State of Stress in the Earth’s Crust, Santa Monica, California, 1963, pp. 110-178.

BRACE W.F.: Brittle fracture of rocks. In: State of Stress in the Earth’s Crust. Judd, W.R. (ed.); New York: Elsevier 1964a, pp. 111-178.

BRACE W.F.: Indentation Hardness of Minerals and Rocks, N. Jahrbuch F; Mineralogie, 1964, pp. 257-269. 19646

BRACE W.F.: Micromechanics in rock systems; In: Structure, Solid Mechanics and Engineering Design. Te’eni, M. (ed.). London: Wiley-Interscience 1971 b, pp. 187-204.

BRACE, W.F. : Dependence of fracture strength of rocks on grain size. Proc. 4th Symp. Rock Mechanics, Penn. State Univ. Min. Ind. Exp. Sta. Bull. No. 76, 99-103 (1961).

BRACE W.F. and BOMBOLAKIS E.G. A note on brittle crack growth in compression. J. geophys., Res. Vol 68, N°12, pp. 3709-3713 (1963).

BRACE W.F. and BYERLEE J.D, Stick-slip as a mechanism for earthquakes, Sciences, 153, 990-992, 1966.

BRACE W.F., and MARTIN R.J.: A test of the law of effective stress for crystalline rocks of low porosity. Int. J. Rock Mech. Min. Sci., Vol. 5, No. 5, Sept., 1968, pp. 415-426.

BRACE W.F. and. ORANGE A.S(1968). Electrical resistivity changes in saturated rocks during fracture and frictional sliding. J. Geophys. Res., Vol 73, pp l433-1445.

BRACE W.F., PAULDING B.W., SCHOLZ C. : Dilatancy in the fracture of crystalline rocks. J. Geophys. Res. 71, 3939-3953 (1966) N°16, Vol 71.

BRADY B.G.H and BROWN E.T (1995). Rock Mechanics for Underground Mining. Georges Allen & Unwin, London, 527pp.

BRADY B.T. (1974), “Theory of earthquakes I”. A scale independent theory of rock failure. Pure and Appl; Geophys., Vol. 112, pp. 701-725.

BRADY, B.T. (1971). An exact solution to the radially end-constrained circular cylinder under triaxial loading. Int. J. Rock Mech. Min. Sci. 8, 165-178.

BRADY B.T. : The effect of confining pressure on the elastic stress distribution in a radially end-constrained circular cylinder. Int. J. Rock Mech. Min. Min. Sci. 8, 153-164 (1971a).

BRADY B.T. : Initiation of failure in a radially end-constrained circular cylinder of brittle rock. Int. J. Rock Mech. Min . Sci 8, 371-387 (1971d).

BRADY B.T. : A mechanical equation of state for brittle rock. Part I. the pre-failure behavior of brittle Rock. Int. J. Rock, Mech. Min. Sci. 7, 385-421 (1970b).

BRADY B.T. : A statistical theory of brittle fracture for rock materials. Part I. Brittle failure under homogeneous axisymmetric states of stress. Int. J. Rock Mech. Min. Sci. 6, 21-42 (1969)

BRADY B.T.: Effects of inserts on the elastic behavior of cylindrical materials loaded between rough end-plates. Int. J Rock Mech. Min. Sci., Vol. 8, No. 4, July, 1971, pp. 357-369.

BRADY B.T., BLAKE W. : An elastic solution of the laterally constrained circular cylinder under unixial loading. In : Basic and Applied Rock Mechanics. Gray, K.E. (ed.) 10th Symp. Rock Mechanics, Austin, Texas, May 1968. New York : A.I.M.E . 1972, pp. 199-214.

BRADY B.T., DUVALL W.I. and HORINO F.G., 1971. A study of post-failure characteristics of brittle rock. Paper II-21 (22 pp.). In : rock fracture proc. Int symposium rock mechanic, Nancy, 1971.

BRADY B.T., DUVALL W.I and HORINO F.G., 1973, An experimental determination of the true unixial stress-strain behavior of brittle rock mechanics, Vol. 5, pp. 107-120.

BRESSANI L.A., “External Measurement of Axial Strain in the triaxial Test, “ Geotechnical Testing, GTJODJ, Vol. 18, No.2, June 1995, pp. 226-240.

BRIDELL J.M. (1991). Reducing frictional constraint in compression testing. M.S. Thesis, University of Minnesota, Minneapolis, Minnesota.

BRIDGMAN P.W. : Volume Changes in the plastic Stages of Simple Compression, Journal of Appl. Phys., 1949 b, Vol. 20, pp. 1241-1251.

BRIDGMAN P.W : Reflections on rupture. J. Appl. Phys. 9, 517-528 (1938).

BROOK N. A Method of Overcoming both Shape and Size effects in Point load Testing.

Department of Mining and Mineral Sciences, Leeds University, Leeds L52 9JT.

BROWN E.T (1974). Fracture of rock under uniform biaxial compression. Advances in Rock Mechanics, Proc. 3rd Congr. Int Soc. Rock Mech., Notional Academy of Science, Washington D.C., Vol 2, pp. 111-117.

BROWN E.T. (1971). Strength-size effects in rock material. Proc. Symp. Int. Soc. Rock Mech. On Rock Fracture, Nancy, paper II-11.

BROWN M, 1994 : Microstructural Analysis in 3D. Mater WID. Vol. 2, N° 4, p. 200.

BROWN E.T. and HUDSON J.A.: The influence of micro-structure on rock fracture on the laboratory scale. Proc. Symp. Rock Fracture, Nancy, 1971, Paper II-20.

BROWN E.T., GONANO L.P. : An analysis of size effect behavior in brittle rock. In : 2nd Aust. New Zealand Conf. On Geomechanics, Brisbane, 1975. Inst. Eng. Aut. Nat. Conf. Publ. No. 75/4, 1975, pp. 139-143.

BROWN E.T., GONANO L.P. : Improved compression test technique for soft rock : J. Geotech. Eng. Div., Proc. Am. Soc. Civ. Eng; 100, 196-199 (1974).

BUNTING, D. : Chamber-pillars in deep anthracite-mines. Trans A.I.M.E/, Vol. 42, 1911, pp. 236-245.

BURCHARTZ H., SAENGER G : Der Einflug der Probengrob und Probenform auf die Ergebnisse der Prüfung von Naturgesteinen auf Druckfestigkeit. Straßenbau 22.233-236; 257-262 (1931).

BURLAND J.B. and SYMES M., 1982. A simple axial displacement gauge for use in the triaxial apparatus. Technical note. Géotechnique, Vol. 32:1, pp. 62-65.

BUTTERFIELD R., HARKNESS R. and ANDRAWES K.Z., “A stereophotogrammetric method for measuring displacement fields”, Géotechnique, Vol. 20, No 3, pp. 308-314, 1970.

BYERLEE J.D. : The fracture strength and frictional strength of Weber sandstone. Int. J. Roch Mech. Min. Sci. 12, 1-4 (1975).

BYERLEE J.D. : Brittle-ductile transition in rocks. J. Geophys. Res. 73, 4741-4750 (1968).

BYERLEE, J.D. : Frictional characteristics of granite under high confining pressure. J. Geophys. Res., Vol. 72, No. 14, July 15, 1967, pp. 3639-3648.

BOULAY C. : Conception et préparation d'un essai sur l'étude du couplage entre énacité et teneur en eau du béton.. Mémoire pour obtenir le titre d’Ingénieur dilplômé par l’état. 1988 à l’E.N.S.A.M. – PARIS.

CANGIANO S. and TOGNON, G. (1990). The deductible/brittle transition in concrete beams in relation to servo-controlled system of the testing machine. Engng fract. Mech. 35(4/5), 793-799.

CARPENTER G.W. and STEPHENSON R.W. “Permeability Testing in the Triaxial Cell.” Geotechnical Testing Journal. GTJODJ, vol. 9, n° 1, march 1986, PP 3-9.

CARPINTERI A. : Decrease of apparent tensile and bending strength with specimen size : two different explanations based on fracture mechanics. Int. J. Solids Struct. 25, 407-429 (1989).

CERROLAZA M., SULEM J., EL BIED A.

A Cosserat non-linear finite element analysis software for blocky structures

Int.J. Advances in Engineering Software, Elsevier, 30, pp. 69-83 , 1999

CHAIN S. : Length effects in boundary lubrication. Wear, pp. 331-349(1985).

CHALABI M. And HUNG C.L. (1974) : Stress Distribution within Circular Cylinders in Compression. Int. J. Rock Mech. Min. Sci. & Geomech. Abstr. 11, 45-56.

CHAMBON R. (1981), “Contribution à la modélisation numérique non-linéaire des sols”. Thèse de doctorat es sciences, Grenoble.

CHAMBON R., DESRUES J. and TILLARD D., 1994a, Shear modulus identification versus experimental localisation data. In Localisation and bifurcation theory for soils and rocks (ed. By CHAMBON R., DESRUES J. and VARDOULAKIS I.), Balkema, Rotterdam, pp. 101-111.

CHAMBON R., DESRUES J., and HAMMAD W., 1994b, CLOE, a new rate-type constituve model for geomaterials theoretical basis and implementation. Int. J. Num. Anal. Meth. Geomaterials, Vol. 18, pp.253-278.

CHAMBON, R., 1986, Bifurcation par localisation en bande de cisaillement, une approche avec des lois incrémentalement non linéaires, Journal de Mécanique Théorique et Appliquée, Vol. 5, pp. 277-298.

CHAMBON, R., 1989, Bases théoriques d’une loi de comportement incrémentale consistante pour les sols, Rapport de Recherche COSM, IMG, Grenoble, France.

CHAN S.L., 1989 : Image Analysis. In Fractography and failure Mechanisms of Polymers and Composites. Pp. 145-192.

CHARLEZ Ph. A. (1991) “Rock mechanics” Edition TECHNIP.

CHAU, K.T. (1993) Anti-symmetric bifurcations in a compressible pressure-sensitive circular cylinder under axisymmetric tension and compression. J. Appl. Mech., 60, 282-289.

CHEN W.F. and Hand D.J. (1998) “Plasticity for structural engineers Springer-Verlag.

CHITTY D.E., KIM K.J and MERKLE D.H. : Undrained Triaxial Compression Behavior of of Saturated Indiana Limestone, Constitutive Laws for Engeneering Materials, Eds. Desai, Krempl, Frantziskonis, ASME Press, pp. 805-810, 1990.

CLAYTON C.R.I, KHATRUSH S.A., BICA A. V.D. and SIDDIQUE A, 1989 : “The Use of Hall Effect Semiconductors in Geotechnical Instrumentation. “Geotechnical Testing Journal. ASTM. Vol. 12, No 1, pp. 69-76.

CLAYTON C.R.I. and KHATRUSH S.A. 1986, “A New Device for Measuring Local Axial Strains on Triaxial Specimens, “Geotechnique. Vol. 36, No. 4, pp. 593-597.

COKER D.A., TORQUATO S., DUNSMUIR : Journal of Geophysical Research, Vol. 101, N° B8, pages 17, 497-17, 506, August 10, 1996. Morphology and Physical Properties of Fontainebleau Sandstone via a tomographic Analysis.

COLLIAT J.L., DESRUES J. and FORAY P., 1989, Triaxial testing of granular soil under elevated cell pressure. In Advanced triaxial testing of soil and rock, ASTM STP977 (edited by Donaghe R.T., Chaney R.C. and Silver M.L), Philadelphia : American for testing and material, pp. 209-310.

CONWAY J.C. An Investigation of the stress Distribution inn a Circular cylinder under Compressive Load for varying Boundary Conditions, M.S. Thesis, Pennsylvania State University (1963).

COOK N.G.W. : Rock Mechanics 2. 181-188 (1970) An Experiment Proving that Dilatancy is a Pervasive Volumetric Property of Brittle Rock Loaded to Failure.

COOK N.G.W, HOEK E., PRETORIOUS J.P.G., ORTLEPP W.D., SALOMON M.D.G. Rock Mechanics Applied to the Study of Rockbursts. J. South Afr. Min. & Metal.. pp. 436-528, (May 1996).

COOK, N.G.W. : A Study of failure in the Rock Surrounding Underground Excavations, Thesis, University of Witwatersrand, 1962.

COOK, N.G.W. : The failure of rock. Int. J. Rock Mech. Min. Sci., Vol; 2, No; 4, Dec., 1965, pp. 389-403.

COOK, N.G.W., and HODGSON, K. : Some Detailed Stress-Strain curves for Rock, Journal of Geophys. Res., 1965, Vol. 70, pp. 2883-2888.

COOK, N.G.W., and HOJEM J.P.M. : A Rigid 50-Ton Compression and Tension Testing Machine. South African Mech. Eng., V. 16, November 1966, pp. 89-92.

COOPER, G. A. (1977). Optimization of the three point bend test for fracture energy measurement. J. Mat. Sci; 12(1), 277-289.

COQUARD P. and BOISTELLE R., 1994, Water and solvent effects on the strength of set plaster. Int. J. Rock Mech. Min. Sci. & Geomech. Abstr., Vol. 31:5, pp. 517-517.

CORNET F.H., FAIRHURST C. : Influence of pore pressure on the deformation behavior of saturated rocks. In : Advances in Rock Mechanics. Proc. 3rd Congr. Int. Soc. Rock Mech. Washington, D.C. : Nat. Acad. Sci. 1974, Vol. II, Part A., pp. 638-644.