Predicting fretting fatigue in engineering design
暂无分享,去创建一个
[1] J. Buffière,et al. Numerical methods for stress intensity factor ΔK calculations of fretting cracked interface , 2018 .
[2] C. Gür,et al. Failure analysis of fretting fatigue initiation and growth on railway axle press-fits , 2018 .
[3] A. Miranda,et al. Stress intensity factor solutions for fretting fatigue using stress gradient factor , 2017 .
[4] M. Ciavarella,et al. A simplified extension of the Crack Analogue model for fretting fatigue with varying normal load , 2017 .
[5] J. A. Araújo,et al. Early cracking orientation under high stress gradients: The fretting case , 2017 .
[6] Magd Abdel Wahab,et al. Numerical prediction of fretting fatigue crack trajectory in a railway axle using XFEM , 2017 .
[7] David Néron,et al. An enrichment-based approach for the simulation of fretting problems , 2017, Computational Mechanics.
[8] Magd Abdel Wahab,et al. Finite element analysis of fretting fatigue under out of phase loading conditions , 2017 .
[9] A. Mäntylä,et al. Applying the digital image correlation method to fretting contact for slip measurement , 2017 .
[10] R. Ramesh,et al. A unified approach for representing fretting and damage at the edges of incomplete and receding contacts , 2017 .
[11] M. Wahab,et al. Finite element analysis of fretting wear under variable coefficient of friction and different contact regimes , 2017 .
[12] D. Hills,et al. Incomplete contacts in partial slip subject to varying normal and shear loading, and their representation by asymptotes , 2017 .
[13] S. Beretta,et al. Defect acceptability under full-scale fretting fatigue tests for railway axles , 2016 .
[14] D. Hills,et al. A review of the use of the asymptotic framework for quantification of fretting fatigue , 2016 .
[15] George Z. Voyiadjis,et al. Effects of fatigue damage and wear on fretting fatigue under partial slip condition , 2015 .
[16] S. Pearson,et al. Is the wear coefficient dependent upon slip amplitude in fretting? Vingsbo and Söderberg revisited , 2015 .
[17] S. Fouvry,et al. A FEM fretting map modeling: Effect of surface wear on crack nucleation , 2015 .
[18] Xin Li,et al. A fretting related damage parameter for fretting fatigue life prediction , 2015 .
[19] D. Hills,et al. Sharp edged contacts subject to fretting: A description of corner behaviour , 2015 .
[20] Remigiusz Michalczewski,et al. The effect of random surface topography height on fretting in dry gross slip conditions , 2014 .
[21] D. Hills,et al. Mechanics of fretting fatigue—Oxford's contribution , 2014 .
[22] Valentin L. Popov,et al. Partial-slip frictional response of rough surfaces , 2014, Scientific Reports.
[23] M. Maitournam,et al. Formulation of gradient multiaxial fatigue criteria , 2014 .
[24] A. Constantinescu,et al. Computational fretting fatigue maps for different plasticity models , 2014 .
[25] S. Fouvry,et al. Stress gradient effect on the crack nucleation process of a Ti–6Al–4V titanium alloy under fretting loading: Comparison between non-local fatigue approaches , 2013 .
[26] Sean B. Leen,et al. Microstructure-sensitive prediction and experimental validation of fretting fatigue , 2013 .
[27] Magd Abdel Wahab,et al. Fretting fatigue crack initiation lifetime predictor tool: Using damage mechanics approach , 2013 .
[28] B. Berthel,et al. Fretting fatigue crack growth simulation based on a combined experimental and XFEM strategy , 2013 .
[29] Mats G. Larson,et al. The Finite Element Method: Theory, Implementation, and Applications , 2013 .
[30] Sean B. Leen,et al. Finite element implementation of multiaxial continuum damage mechanics for plain and fretting fatigue , 2012 .
[31] D. Hills,et al. Correlation of fretting fatigue experimental results using an asymptotic approach , 2012 .
[32] D. Hills,et al. Energy dissipation in a frictional incomplete contact with varying normal load , 2012 .
[33] R. W. Neu,et al. Progress in standardization of fretting fatigue terminology and testing , 2011 .
[34] S. Leen,et al. Computational study on the effect of contact geometry on fretting behaviour , 2011 .
[35] D. A. Hills,et al. Frictional elastic contact with periodic loading , 2011 .
[36] D. A. Hills,et al. Determination of the Frictional Properties of Titanium and Nickel Alloys Using the Digital Image Correlation Method , 2011 .
[37] B. Abazadeh,et al. Estimation of fatigue life for plates including pre-treated fastener holes using different multiaxial fatigue criteria , 2011 .
[38] Sean B. Leen,et al. Simple parameters to predict effect of surface damage on fretting fatigue , 2011 .
[39] Michael P. Enright,et al. Probabilistic Fretting Fatigue Assessment of Aircraft Engine Disks , 2010 .
[40] Izhak Etsion,et al. Revisiting the Cattaneo–Mindlin Concept of Interfacial Slip in Tangentially Loaded Compliant Bodies , 2010 .
[41] Hui Wang,et al. Partial Slip Contact Analysis on Three-Dimensional Elastic Layered Half Space , 2010 .
[42] D. A. Hills,et al. What features are needed in a fretting fatigue test , 2009 .
[43] Eugenio Giner,et al. An Abaqus implementation of the extended finite element method , 2009 .
[44] Renaud Gutkin,et al. Growth of fretting fatigue cracks in a shrink-fitted joint subjected to rotating bending , 2008 .
[45] David Taylor,et al. On the prediction of high-cycle fretting fatigue strength: Theory of critical distances vs. hot-spot approach , 2008 .
[46] A. Lehtovaara,et al. A numerical model for the evaluation of fretting fatigue crack initiation in rough point contact , 2008 .
[47] D. Hills,et al. Prediction of fretting crack propagation based on a short crack methodology , 2008 .
[48] Ciro Santus,et al. Fretting fatigue of aluminum alloy in contact with steel in oil drill pipe connections, modeling to interpret test results , 2008 .
[49] Sean B. Leen,et al. Finite element simulation of fretting wear-fatigue interaction in spline couplings , 2008 .
[50] S. Leen,et al. The critical role of fretting wear in the analysis of fretting fatigue , 2007 .
[51] Erhard Leidich,et al. Enhanced Ruiz criterion for the evaluation of crack initiation in contact subjected to fretting fatigue , 2007 .
[52] L. Susmel,et al. Non-propagating cracks and high-cycle fatigue failures in sharply notched specimens under in-phase Mode I and II loading , 2007 .
[53] Patrick J. Golden,et al. Effect of surface treatments on fretting fatigue of Ti–6Al–4V , 2007 .
[54] Sean B. Leen,et al. Contact-evolution based prediction of fretting fatigue life: Effect of slip amplitude , 2007 .
[55] David A. Hills,et al. A new method for the quantification of nucleation of fretting fatigue cracks using asymptotic contact solutions , 2006 .
[56] M. Ciavarella. Some observations on the CLNA model in fretting fatigue , 2006 .
[57] Leo Vincent,et al. Progress in fretting maps , 2006 .
[58] David A. Hills,et al. Slip zone length at the edge of a complete contact , 2006 .
[59] M. Varenberg,et al. Theoretical Substantiation of the Slip Index Approach to Fretting , 2005 .
[60] S. Mahadevan,et al. Multiaxial high-cycle fatigue criterion and life prediction for metals , 2005 .
[61] Sean B. Leen,et al. Finite element, critical-plane, fatigue life prediction of simple and complex contact configurations , 2005 .
[62] David A. Hills,et al. Bounded asymptotic solutions for incomplete contacts in partial slip , 2004 .
[63] M. Varenberg,et al. Slip Index: A New Unified Approach to Fretting , 2004 .
[64] David Nowell,et al. The use of multiaxial fatigue models to predict fretting fatigue life of components subjected to different contact stress fields , 2004 .
[65] Anders Ekberg,et al. Fretting fatigue of railway axles—a Review of predictive methods and an outline of a finite element model , 2004 .
[66] Luca Susmel,et al. A unifying approach to estimate the high‐cycle fatigue strength of notched components subjected to both uniaxial and multiaxial cyclic loadings , 2004 .
[67] S. Mall,et al. Effects of slip on fretting behavior: experiments and analyses , 2004 .
[68] Michele Ciavarella,et al. A ‘crack‐like’ notch analogue for a safe‐life fretting fatigue design methodology , 2003 .
[69] D. A. Hills,et al. Asymptotic results for slipping complete frictional contacts , 2003 .
[70] David Taylor,et al. Two methods for predicting the multiaxial fatigue limits of sharp notches , 2003 .
[71] Siegfried Fouvry,et al. An energy description of wear mechanisms and its applications to oscillating sliding contacts , 2003 .
[72] D. A. Hills,et al. The application of asymptotic solutions to characterising the process zone in almost complete frictionless contacts , 2003 .
[73] Izhak Etsion,et al. A Semi-Analytical Solution for the Sliding Inception of a Spherical Contact , 2003 .
[74] C. Navarro,et al. A procedure for estimating the total life in fretting fatigue , 2003 .
[75] Edward J. Berger,et al. A semi-analytical approach to three-dimensional normal contact problems with friction , 2003 .
[76] Paolo Lazzarin,et al. Fracture Mechanics and Notch Sensitivity , 2003 .
[77] Shankar Mall,et al. Fretting fatigue crack initiation mechanism in Ti–6Al–4V , 2002 .
[78] David Nowell,et al. The effect of rapidly varying contact stress fields on fretting fatigue , 2002 .
[79] D. A. Hills,et al. An asymptotic approach to crack initiation in fretting fatigue of complete contacts , 2002 .
[80] L. Susmel,et al. A bi-parametric Wöhler curve for high cycle multiaxial fatigue assessment , 2002 .
[81] Michele Ciavarella,et al. A review of analytical aspects of fretting fatigue, with extension to damage parameters, and application to dovetail joints , 2001 .
[82] Swee Hin Teoh,et al. Fatigue of biomaterials: a review , 2000 .
[83] S. Fouvry,et al. Tribologically transformed structure in fretting , 2000 .
[84] Shankar Mall,et al. An evaluation of parameters for predicting fretting fatigue crack initiation , 2000 .
[85] Suresh,et al. Similarities of stress concentrations in contact at round punches and fatigue at notches : implications to fretting fatigue crack initiation , 2000 .
[86] A. Batchelor,et al. Some considerations on the mitigation of fretting damage by the application of surface-modification technologies , 2000 .
[87] Chantier,et al. A probabilistic approach to predict the very high-cycle fatigue behaviour of spheroidal graphite cast iron structures , 2000 .
[88] Subra Suresh,et al. The role of adhesion in contact fatigue , 1999 .
[89] J. Araújo. Analysis of pad size effects in fretting fatigue using short crack arrest methodologies , 1999 .
[90] T. Belytschko,et al. A finite element method for crack growth without remeshing , 1999 .
[91] David Taylor,et al. Geometrical effects in fatigue: a unifying theoretical model , 1999 .
[92] J. Jäger,et al. A new principle in contact mechanics , 1998 .
[93] Thomas Farris,et al. Observation, analysis and prediction of fretting fatigue in 2024-T351 aluminum alloy , 1998 .
[94] M. Ciavarella. The generalized Cattaneo partial slip plane contact problem. I—Theory , 1998 .
[95] Subra Suresh,et al. Aspects of equivalence between contact mechanics and fracture mechanics: theoretical connections and a life-prediction methodology for fretting-fatigue , 1998 .
[96] Siegfried Fouvry,et al. Quantification of fretting damage , 1996 .
[97] Vassilis P. Panoskaltsis,et al. INVARIANT FORMULATION OF A GRADIENT DEPENDENT MULTIAXIAL HIGH-CYCLE FATIGUE CRITERION , 1996 .
[98] M. Dubourg,et al. Crack Path Prediction Under Fretting Fatigue—A Theoretical and Experimental Approach , 1996 .
[99] S. Faanes. Distribution of contact stresses along a worn fretting surface , 1996 .
[100] T. Farris,et al. Mechanics of fretting fatigue crack formation , 1995 .
[101] S. Faanes,et al. Inclined cracks in fretting fatigue , 1995 .
[102] Siegfried Fouvry,et al. Analysis of sliding behaviour for fretting loadings : determination of transition criteria , 1995 .
[103] Leo Vincent,et al. Mixed fretting regime , 1995 .
[104] D. A. Hills,et al. Static Axisymmetric Hertzian Contacts Subject to Shearing Forces , 1994 .
[105] David W. Hoeppner,et al. Fretting in orthopaedic implants: A review , 1994 .
[106] M. H. Attia,et al. Standardization of Fretting Fatigue Test Methods and Equipment , 1992 .
[107] L. Vincent,et al. Cracking behaviour of various aluminium alloys during fretting wear , 1992 .
[108] L. Vincent,et al. Material effects in fretting wear: application to iron, titanium, and aluminum alloys , 1991 .
[109] David Nowell,et al. Crack initiation criteria in fretting fatigue , 1990 .
[110] Y. Berthier,et al. Fretting fatigue and fretting wear , 1989 .
[111] Staffan Söderberg,et al. On fretting maps , 1988 .
[112] Y. Berthier,et al. Velocity accommodation in fretting , 1988 .
[113] A. Fatemi,et al. A CRITICAL PLANE APPROACH TO MULTIAXIAL FATIGUE DAMAGE INCLUDING OUT‐OF‐PHASE LOADING , 1988 .
[114] Darrell F. Socie,et al. Multiaxial Fatigue Damage Models , 1987 .
[115] Jean Lemaitre,et al. Coupled elasto-plasticity and damage constitutive equations , 1985 .
[116] C. Ruiz,et al. An investigation of fatigue and fretting in a dovetail joint , 1984 .
[117] G. Hamilton,et al. Explicit Equations for the Stresses beneath a Sliding Spherical Contact , 1983 .
[118] M. E. Haddad,et al. Fatigue Life Predictions of Smooth and Notched Specimens Based on Fracture Mechanics , 1981 .
[119] B. V. Derjaguin,et al. Effect of contact deformations on the adhesion of particles , 1975 .
[120] John Dundurs,et al. Stress concentration at a sharp edge in contact problems , 1972 .
[121] K. Kendall,et al. Surface energy and the contact of elastic solids , 1971, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[122] J. Dundurs. Discussion: ``Edge-Bonded Dissimilar Orthogonal Elastic Wedges Under Normal and Shear Loading'' (Bogy, D. B., 1968, ASME J. Appl. Mech., 35, pp. 460-466) , 1969 .
[123] David B. Bogy,et al. Edge-Bonded Dissimilar Orthogonal Elastic Wedges Under Normal and Shear Loading , 1968 .
[124] L. E. Goodman,et al. The Stress Field Created by a Circular Sliding Contact , 1966 .
[125] J. A. Collins. Fretting-Fatigue Damage-Factor Determination , 1965 .
[126] W. Findley. A Theory for the Effect of Mean Stress on Fatigue of Metals Under Combined Torsion and Axial Load or Bending , 1959 .
[127] David Tabor,et al. Junction growth in metallic friction: the role of combined stresses and surface contamination , 1959, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[128] M. Williams,et al. Stress Singularities Resulting From Various Boundary Conditions in Angular Corners of Plates in Extension , 1952 .
[129] David Tabor,et al. Adhesion of solids and the effect of surface films , 1950, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[130] E. J. Warlow-Davies,et al. Fretting Corrosion and Fatigue Strength: Brief Results of Preliminary Experiments: , 1941 .
[131] H. J. Gough,et al. An Investigation of the Fretting Corrosion of Closely Fitting Surfaces , 1939 .
[132] R. S. Bradley,et al. LXXIX. The cohesive force between solid surfaces and the surface energy of solids , 1932 .
[133] E. M. Eden,et al. The Endurance of Metals: Experiments on Rotating Beams at University College, London , 1911 .
[134] G. N. Gueye,et al. Elasticity , 2013, Journal of cutaneous pathology.
[135] S. Leen,et al. An experimental study on the key fretting variables for flexible marine risers , 2018 .
[136] M. Spaniel,et al. An Abaqus plugin for fatigue predictions , 2017, Adv. Eng. Softw..
[137] J. Leroux,et al. Analysis of the stress gradient effect in fretting-fatigue through nonlocal intensity factors , 2016 .
[138] S. Fouvry,et al. Prediction of Fretting-fatigue Crack Nucleation Using a Surface Shear - Sliding Size Crack Analog Parameter☆ , 2015 .
[139] S. Fouvry,et al. Prediction of the Fretting Fatigue Crack Nucleation Endurance of a Ti-6V-4Al/Ti- 6V-4Al Interface: Influence of Plasticity and Tensile/Shear Fatigue Properties , 2013 .
[140] S. Fouvry,et al. Experimental Analysis and Modeling of the Crack Arrest Condition Under Severe Plastic Fretting Fatigue Conditions , 2013 .
[141] W. Marsden. I and J , 2012 .
[142] C. Navarro,et al. On the use of multiaxial fatigue criteria for fretting fatigue life assessment , 2008 .
[143] David Taylor,et al. On the use of the Theory of Critical Distances and the Modified Wöhler Curve Method to estimate fretting fatigue strength of cylindrical contacts , 2007 .
[144] D. Hills,et al. Recent developments in the understanding of fretting fatigue , 2006 .
[145] David L. McDowell,et al. Influence of Nonhomogeneous Material in Fretting Fatigue , 2003 .
[146] Paolo Lazzarin,et al. Notch Sensitivity and Defect Sensitivity under Fatigue Loading: Two Sides of the Same Medal , 2001 .
[147] Drew V. Nelson,et al. Evaluation of an energy-based approach and a critical plane approach for predicting constant amplitude multiaxial fatigue life , 2000 .
[148] Siegfried Fouvry,et al. A Multiaxial Fatigue Analysis of Fretting Contact Taking Into Account the Size Effect , 2000 .
[149] J. Barbera,et al. Contact mechanics , 1999 .
[150] K Dang-Van,et al. Macro-Micro Approach in High-Cycle Multiaxial Fatigue , 1993 .
[151] Tc Lindley,et al. Fretting Fatigue in the Power Generation Industry: Experiments, Analysis, and Integrity Assessment , 1992 .
[152] David Nowell,et al. Mechanics of fretting fatigue tests , 1987 .
[153] J. Béard. An investigation into the mechanisms of fretting fatigue , 1982 .
[154] M. E. Haddad,et al. Prediction of non propagating cracks , 1979 .
[155] K. N. Smith. A Stress-Strain Function for the Fatigue of Metals , 1970 .
[156] J. Dundurs,et al. Discussion of Edge-Bonded Dissimilar Orthogonal Elastic Wedges under Normal and Shear Loading , 1969 .
[157] R. D. Mindlin. Elastic Spheres in Contact Under Varying Oblique Forces , 1953 .
[158] Raymond D. Mindlin,et al. Compliance of elastic bodies in contact , 1949 .
[159] H. Hertz. Ueber die Berührung fester elastischer Körper. , 1882 .
[160] N. Sukumar,et al. Singularity Enrichment for Complete Sliding Contact Using the Partition of Unity Finite Element Method , 2022 .
[161] Guide for Fretting Fatigue Testing , 2022 .