127 3.5.1 Formulation de Bueckner : Rappel bibliographique, p.128 ,
« Growth of small cracks and prediction of lifetime in high-température alloys» Material Science and Engineering A, pp.40-50, 2007. ,
« Modèle de calcul de durée de vie des matériaux sous chargement de fatigue-fluage et d'oxydation : application aux essais LCF et FMT des superalliages monocristallins AM1 et CMSX4, » Rapport interne, 2001. ,
«A physical-base model for life prediction of single crystal turbine blades under creep-fatigue loading and thermal transient conditions, Temperature-Fatigue Interaction, pp.203-212, 2002. ,
« Crack groxth modelling in single ctystals based on higher order continua, Computational Materials Science, issue.45, pp.756-761, 2009. ,
Cube slip" in near-[111] oriented speciments of a single-crystal nickel-base superalloy. NI, Nickel base alloys, pp.40-395, 1999. ,
Plastic yielding fromsharp notches, Proceedings of the Royal Society of London, vol.279, p.1, 1964. ,
Lifetime predictions and cumulative damage in high temperature conditions ASTM STP 770 Philadelphia : American Society for TestingAn overview of the damage approach of durability modelling at elevated temperature, Fatigue Frac Eng Later Struc, vol.24, pp.405-418, 1982. ,
An energetic approach in thermomechanical fatigue for silicon molybdenum cast iron, Mater High Temp, vol.17, pp.373-380, 2000. ,
Evaluation of the fatigue strength of notched specimens by the point and line methods with high stress ratios, International Journal of Fatigue, vol.27, pp.639-650, 2005. ,
Influence of orientation on the low cycle fatigue behaviour of MAR-M200 single crystals. Part II : Cyclic stress-strain behaviour, Materials Science and Engineering, 1991. ,
Measurement of Fatigue Cracks in Notched Specimens by Means of Theoretical Electrical Potential Calibrations, Journal of the Mechanics and Physics of Solids, 1975. ,
A computational approach th thermomechanical fatigue, International Journal of Fatigue, vol.26, issue.8, pp.805-818, 2004. ,
Anisotropie élastique induite par l'endommagement, 1979. ,
Sur la résistance à la fatigue des matériaux" Sciences et technique de l'armement, pp.641-722, 1974. ,
Small Fatigue Cracks, 2003. ,
Endommagement en fatigue oligocyclique à 650°C de superalliages monocristallins à base de nickel : influence de l'orientation cristallographique et d'une concentration de contrainteFatigue behaviour of CMSX 2 superalloy [001] single crystals at high temperature I: Low cycle fatigue of notched specimens, Materials Science and Engineering A, vol.129, pp.45-53, 1989. ,
Fatigue crack growth during gross plasticity and the J-integral, Mechanicsof Crack Growth. ASTM STP, vol.590, pp.82-103, 1975. ,
A general fatigue therory and its application to out-of-phase cyclic loading, Trans ASME? J Eng Mater Technol, vol.115, pp.411-417, 1993. ,
Anisotropic damage model under continuum slip crystal plasticity theory for single crystals, International Journal of Solids and Structures, vol.39, pp.5279-5293, 2002. ,
Effect of Solidification Parameters on the Growth geometry of MC Carbide in IN-100 Dendritic Monocrystals, Metall. Trans. A, vol.9, p.1373, 1978. ,
The Critical Surface Layer in a New Approach to Calculated Fatigue in Structures Submitted to Multiaxial Stresses SACM, Chromium molybdenum steels; TI, Titanium base alloys, pp.15-25, 1983. ,
« Modelling the cyclic behaviour of two-phase single crystal nickel-base superalloys, éditeurs : IUTAM Symposium on Micromechanics of Plasticity and Damage of Multiphase Materials, pp.51-58, 1996. ,
« On the Crack-Tip Blunting Model for Fatigue Crack Propagation in Ductile Materials Fatigue and Fracture Mechanics : 29th volume -ASTMP STP 1332, 1999. ,
The variation of KIc with temperature and loading rate, Metallurgical Transactions, vol.21, issue.2, p.537, 1971. ,
DOI : 10.1007/BF02663346
Temperature effect on the strain range partitioning approach for creep fatigue analysis, fatigue at elevated temperature, 1973. ,
American Society for Testing and Materials, pp.658-669 ,
An energy based fatigue life assessment model for various metallic materials under proportinal an non proportional loading conditions, International Journal of Fatigue, vol.29, issue.647, p.655, 2007. ,
Applicability of Fracture Mechanics to Very Small Cracks or the Cracks in the Early Stage, Second International Conference on Mechanical Behavior of Materials.ASM, Metals Park, 1976. ,
Crack propagation in high stress fatigue, Phil Mag, vol.7, pp.847-57, 1962. ,
Mécanique des matériaux solides" Ed. Dunod, 2ième édition, 2004. ,
Stress based fatigue failure models for uniaxiale ratchetting-fatigue interaction, Int J Fatigue, vol.30, pp.1065-1073, 2008. ,
Crack initiationandpropagationinnotched fatigue specimens, Proceedings of the first conference on fracture, pp.479-99, 1966. ,
Simulation of fatigue crack growth in single crystal superalloys using local approach to fracture, 2006. ,
URL : https://hal.archives-ouvertes.fr/hal-00150004
An engineering model for low cycle fatigue life based on a partition of energy and micro-crack growth, International Journal of Fatigue, issue.31, pp.952-961, 2009. ,
On the Plasticity of the Growth of Fatigue Cracks, J. J. Fracture of Solids, 1963. ,
Single Crystal Modeling for Structural Calculations, I. Model Presentation. NI, SP, Nickel base alloys, vol.113, pp.162-170, 1991. ,
Short fatigue cracks, 1992. ,
Orientation and Temperature Dependence of Some Mechanical Properties of the Single-Crystal Nickel-Base Superalloy Rene N4: III. Tension--Compression Anisotropy, NI, SP, Nickel base alloys, pp.507-512, 1986. ,
A finete element method for carck growth without remeshing, Internat. J. Numer. Method Engrg, vol.46, issue.1, pp.133-150, 1999. ,
Comparison between defects and micronotches in multiaxial fatigue -The size and the gradient effect, International Journal of Fatigue, 2009. ,
URL : https://hal.archives-ouvertes.fr/hal-00809338
Multiaxial fatigue limit criterion for defective materials, Engineering Fracture Mechanics, 2006. ,
Comparison of Various Anisotropic Criteria for Fcc Single-Crystal, Comptes Rendus De L Academie Des Sciences Serie Ii, vol.315, pp.1573-1579, 1992. ,
Critical plane concept and energy approach in multiaxial fatigue, Materialprufung, vol.47, pp.278-286, 2005. ,
URL : https://hal.archives-ouvertes.fr/hal-01372035
Simulahon of the stress-strain gradient effect to design safe components against multiaxial fatigue, Materialprufung, vol.49, pp.370-377, 2007. ,
Gradient dependent multiaxial high cycle fatigue criterion In: SAC, Chromium steels; SCL, Low carbon steels; SCM, Medium carbon steels; SANCM, Nickel chromium molybdenum steels, pp.461-476, 1994. ,
Invariant formulation of a gradient dependent multiaxial high-cycle fatigue, Panoskaltsis, V.P.: Engineering Fracture Mechanics, 1996. ,
Theoretical and numerical aspects of the volu-metric approach for fatigue life prediction in notched components, Int. J. Fatigue, vol.25, issue.1, pp.67-76, 2003. ,
La simulation numérique de la propagation de s fissures, 2009. ,
Damage assessment of components experiencing thermal transients, High temperature structural design ESIS 12, pp.283-315, 1992. ,
Growthof small cracks and prediction of lifetime in high-temperature alloys, Mater Sci Eng:A, vol.468, pp.47040-50, 2007. ,
Fatigue oxidation interaction in a superalloy Application to life prediction in high temperature low cycle fatigue, Met Trans A, vol.14, pp.141-150, 1983. ,
Crack initiation and propagation of some nickel base superal loys : Effect of material anisotropy and test conditions, Proceedings of SOCRAX Workshop : Deformation and Fracture in nickel-base superalloys at elevated temperatures : testing, modelling and applications, 2007. ,
« An oxidation fatigue interaction damage model for thermal fatigue crack growth, » Engineering Fracture Mechanics, vol.34, issue.2, pp.283-294, 1989. ,
Fatigue and ratcheting interactions, Inter J of Fatigue, vol.17, pp.507-511, 1995. ,
On the calibration of the electrical potential technique for monitoring crack growth using finite element methods, International Journal of Fracture, 1979. ,
Small Fatigue Cracks: a Statement of the Problem and Potential Solutions, Mater.Sci.Eng, vol.84, pp.11-16, 1986. ,
Micromechanical modeling of low cycle fatigue under complex loadings. I Theoretical formulation, International Journal of Plasticity, vol.12, pp.1111-1121, 1996. ,
Effect of frequency and environment on fatigue crack growth in A286 at 1100 F Fatigue at elevatedtemperatures, ASTM STP 520, pp.112-133, 1973. ,
The effect of the orientation, temperature and gamma prime size on the yield strenght of a single cystal nickel based superalloy, Gell M. et Korto-vich C. S, 1984. ,
Superalloys II, 1987. ,
Energy criterion for high temperature low cycle fatigue failure, Materials Science and Technology, vol.1, issue.5, pp.427-429, 1991. ,
DOI : 10.1115/1.3265565
Growth of short cracks during high strain fatigue and thermal fatigue and thermal cycling, Low cycle fatigue and life prediction, ASTM STP 770 Philadelphia : American Society for Testing and Materials, 1982. ,
Application of small specimen crack growth to engineering components at high temperature": a review, Low cycle fatigue and life prediction, ASTM STP 942, pp.209-244, 1988. ,
A stress strain function for the fatigue of metals, J . Mater, vol.4, pp.767-78, 1970. ,
Transferability of material data for the example of a randomly loaded forged truck stub axle, SAE Transactions: Journal of Materials & Manufacturing, vol.106, pp.649-670, 1997. ,
A Geometric Model for Fatigue Crack Closure Induced by Fracture Surface Roughness, Metall.Trans A, vol.13, pp.1627-1631, 1982. ,
A comparison of critical distance methods for fracture prediction, International Journal of Mechanical Sciences, vol.50, pp.1075-1081, 2008. ,
A multiaxial fatigue failure criterion considering the effects of the defects, Fatigue Damage of Structural Materials VI, The Sixth International Conference on Fatigue Damage of Structural Materials, 1996. ,
A stress strain function for fatigue of metals, J. Mater, vol.4, pp.767-778, 1970. ,
AppliedOn the stress distribution at the base of a stationary crack, J. Appl. Mech, 1951. ,