Experimental and numerical study of the evolution of stored and dissipated energies in a medium carbon steel under cyclic loading
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[1] F. C. Thompson,et al. Metal Fatigue , 1962, Nature.
[2] Rodney Hill,et al. Continuum micro-mechanics of elastoplastic polycrystals , 1965 .
[3] P. M. Naghdi,et al. On continuum thermodynamics , 1972 .
[4] Fernand Ellyin,et al. A criterion for fatigue under multiaxial states of stress , 1974 .
[5] J. Hutchinson,et al. Bounds and self-consistent estimates for creep of polycrystalline materials , 1976, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[6] Brian N. Leis,et al. An Energy-Based Fatigue and Creep-Fatigue Damage Parameter , 1977 .
[7] André Zaoui,et al. An extension of the self-consistent scheme to plastically-flowing polycrystals , 1978 .
[8] Toshio Mura,et al. Micromechanics of defects in solids , 1982 .
[9] J. Jonas,et al. ESTIMATION OF 8th, 10th AND 12th ORDER ODF COEFFICIENTS FROM ELASTIC PROPERTIES IN COLD ROLLED STEEL SHEETS BY ADJUSTMENT OF SINGLE CRYSTAL ELASTIC CONSTANTS , 1990 .
[10] Georges Cailletaud,et al. Single Crystal Modeling for Structural Calculations: Part 1—Model Presentation , 1991 .
[11] A. Zehnder. A model for the heating due to plastic work , 1991 .
[12] Ricardo A. Lebensohn,et al. A self-consistent anisotropic approach for the simulation of plastic deformation and texture development of polycrystals : application to zirconium alloys , 1993 .
[13] Fernand Meyer,et al. Topographic distance and watershed lines , 1994, Signal Process..
[14] Toshio Mura,et al. A Theory of Fatigue Crack Initiation , 1994 .
[15] I. V. Papadopoulos,et al. A new criterion of fatigue strength for out-of-phase bending and torsion of hard metals , 1994 .
[16] J. Lemaitre,et al. Mécanique des matériaux solides , 1996 .
[17] Paul Lipinski,et al. Micromechanical modelling of the elastoplastic behavior of polycrystals containing precipitates— Application to hypo- and hyper-eutectoid steels , 1997 .
[18] J. Kaleta. Determination of cold work energy in LCF/HCF region , 1998 .
[19] Thierry Palin-Luc,et al. An energy based criterion for high cycle multiaxial fatigue , 1998 .
[20] Graeme W. Milton,et al. A fast numerical scheme for computing the response of composites using grid refinement , 1999 .
[21] Franck Morel,et al. A critical plane approach for life prediction of high cycle fatigue under multiaxial variable amplitude loading , 2000 .
[22] T. Kruml,et al. Fatigue softening of X10CrAl24 ferritic steel , 2001 .
[23] Hervé Moulinec,et al. A computational scheme for linear and non‐linear composites with arbitrary phase contrast , 2001 .
[24] André Chrysochoos,et al. Thermal and dissipative effects accompanying Lüders band propagation , 2001 .
[25] M. Berveiller,et al. Micromechanical modeling of the elastic-viscoplastic behavior of polycrystalline steels , 2001 .
[26] A. H. Yegneswaran,et al. Effect of interlamellar spacing on the mechanical properties of 0.65% C steel , 2001 .
[27] B. Fedelich,et al. A microstructural model for the monotonic and the cyclic mechanical behavior of single crystals of superalloys at high temperatures , 2002 .
[28] Thierry Palin-Luc,et al. A volumetric energy based high cycle multiaxial fatigue citerion , 2003 .
[29] Véronique Favier,et al. Micromechanical modeling of the elastic-viscoplastic behavior of polycrystalline steels having different microstructures , 2004 .
[30] André Chrysochoos,et al. Calorimetric analysis of dissipative and thermoelastic effects associated with the fatigue behavior of steels , 2004 .
[31] M. Fivel,et al. Low-strain fatigue in 316L steel surface grains: a three dimension discrete dislocation dynamics modelling of the early cycles. Part 2: Persistent slip markings and micro-crack nucleation , 2006 .
[32] K. Obrtlík,et al. Dislocation structures in cyclically strained X10CrAl24 ferritic steel , 2006 .
[33] T. Tsuchiyama,et al. Limit of Dislocation Density and Dislocation Strengthening in Iron , 2006 .
[34] J. Polák. Mechanisms and kinetics of the early fatigue damage in crystalline materials , 2007 .
[35] C. O. Frederick,et al. A mathematical representation of the multiaxial Bauschinger effect , 2007 .
[36] A. Galtier,et al. Thermographic Analysis of Fatigue Dissipation Properties of Steel Sheets , 2007 .
[37] L. Vincent. On the ability of some cyclic plasticity models to predict the evolution of stored energy in a type 304L stainless steel submitted to high cycle fatigue , 2008 .
[38] A. Galtier,et al. Local energy analysis of high-cycle fatigue using digital image correlation and infrared thermography , 2008 .
[39] A. Galtier,et al. Influence of the free surface and the mean stress on the heat dissipation in steels under cyclic loading , 2009 .
[40] G. Cailletaud,et al. Constitutive modeling of the creep behavior of single crystal superalloys under non-isothermal conditions inducing phase transformations , 2010 .
[41] P. Evrard,et al. Polycrystalline modeling of the cyclic hardening/softening behavior of an austenitic-ferritic stainless steel , 2010 .
[42] T. Bieler,et al. Overview of constitutive laws, kinematics, homogenization and multiscale methods in crystal plasticity finite-element modeling: Theory, experiments, applications , 2010 .
[43] B. Weberc,et al. Probabilistic multiscale models and measurements of self-heating under multiaxial high cycle fatigue , 2010 .
[44] D. Wei,et al. A microscopic stored energy approach to generalize fatigue life stress ratios , 2010 .
[45] H. Ledbetter. Polycrystalline elastic constants of in situ cementite (Fe3C) , 2010 .
[46] Jan Novák,et al. Accelerating a FFT-based solver for numerical homogenization of periodic media by conjugate gradients , 2010, J. Comput. Phys..
[47] Thierry Palin-Luc,et al. Micro-mechanical modelling of high cycle fatigue behaviour of metals under multiaxial loads , 2012 .
[48] Philip Eisenlohr,et al. An elasto-viscoplastic formulation based on fast Fourier transforms for the prediction of micromechanical fields in polycrystalline materials , 2012 .
[49] R. Seghir,et al. Numerical and experimental estimation of thermomechanical fields heterogeneity at the grain scale of 316L stainless steel , 2012 .
[50] M. Berveiller,et al. Micromechanical modeling of the interactions between the microstructure and the dissipative deformation mechanisms in steels under cyclic loading , 2012 .
[51] M. Daymond,et al. On the determination of single-crystal plasticity parameters by diffraction: optimization of a polycrystalline plasticity model using a genetic algorithm , 2012 .