applied fracture mechanics

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Early Corrosion Fatigue Damage on Stainless Steels Exposed to Tropical Seawater:A Contribution from Sensitive Electrochemical Techniques 259[42] Frankel G.S.; (1998) Pitting corrosion of metals – a review of the critical factors, Journalof the Electrochemical Society 145, 2186–2198[43] Newman R.C., (2001);. Whitney W.R award lecture: understanding the corrosion ofstainless steel, Corrosion 57, 1030–1041[44] Sedriks A.J.; (1989), Corrosion - NACE, Vol. 45, p. 510.[45] Sedriks A.J.; (1996), “Corrosion of Stainless Steels”, second edition, John Wiley & Sons,Inc., USA[46] Macdonald D.D.; (1992), J. Electrochem. Soc., Vol. 139, p.3434.[47] Isaacs H.S. and Vyas B.; (1981), “Scanning Reference Electrode Techniques in LocalisedCorrosion”, Electrochemical Corrosion testing, ASTM STP 727, p. 3, F.[48] Bates S.J., Gosden S.R. and Sargeant D.A.; (1989), “Design and development of ScanningReference Electrode Technique for investigation of pitting corrosion in FV 448 turbinedisc steel”, Materials Science and Technology, Vol. 5, p. 356[49] Sargeant D.A., Hainse J.G.C. and Bates S.; (1989), “ Microcomputer controlled scanningreference electrode apparatus developed to study pitting corrosion of gas turbine discmaterials ”, Materials Science and Technology, Vol. 5, p. 487[50] Trethewey K.R., Marsh D.J. and Sargeant D.A.; (1996), “Quantitative Measurements ofLocalised Corrosion Using SRET”, CORROSION-NACE 94, Paper no. 317.[51] K.R. Trethewey, D.A Sargeant, D.J. Marsh and S. Haines, (1994), “New Methods onQuantitative Analysis of Localised Corrosion using Scanning electrochemical Probes”,in Modelling Aqueous Corrosion: From individual Pits to System management, p.417, eds. K.R. Trethewey and P.R. Roberge, Kluwer Academic Press.[52] H.N. McMurray, S.R. Magill, and B.D. Jeffs (1996), “Scanning Reference ElectrodeTechnique as a tool for investigating localised corrosion phenomena in galvanisedsteels”, Iron and Steelmaking, Vol. 23, No.2, p 183[53] H.N. McMurray and D.A. Worsley (1997), “Scanning Electrochemical Techniques forthe Study of Localised Metallic Corrosion”, in Research in Chemical Kinetics, Vol. 4, p.149, Compton & Hancock eds. Blackwell Science Ltd[54] Rosenfeld I L, Danilov IS (1967) Electrochemical Aspects of Pitting Corrosion. CorrosionScience, 7:129.[55] Dzib-Pérez L., (2009), Ph.D. thesis, National Autonomous University of Mexico, Mexico.[56] Acuña-González N.; (2001), Ph.D. Thesis, The effect of Micro-organisms on theCorrosion Fatigue Performance of Stainless Steel in Natural Seawater. NationalUniversity of Mexico, Mexico.[57] Akid R., Wang Y.Z., and Fernando U. S.; (1993) The Influence of Loading Mode andEnvironment on Short Fatigue Crack Growth in a High Strength Steel. Corrosion –Deformation Interactions (ed. T. Magnin and J. M. Gras), Les Editions de Physique, pp.659-670.[58] Hoeppner D.W.; (1979) “Model for Prediction of Fatigue Lives Based Upon a PittingCorrosion Fatigue Process”, Fatigue Mechanisms, Proceedings of an ASTM-NBS-NSFSymposium, J.T. Fong, De., ASTM STP 675, American Society for Testing and Materials,1979 pp. 841-870.
260Applied Fracture Mechanics[59] Lindley T.C., Mclntyre P. and Trant P. J.; (1982) “Fatigue Crack Initiation at CorrosionPits,” Metals Technology, Vol. 9, pp. 135-142.[60] Kawai S., and Kasai K.; (1985) “Considerations of Allowable Stress of Corrosion Fatigue(Focused on the Influence of Pitting), “Fatigue Fracture of Engineering MaterialsStructure, Vol. 8, No. 2, pp. 115-127.[61] Kondo Y.; (1983) “Prediction of Fatigue Crack Initiation Life Based on Pit Growth,“Corrosion Sciencie, Vol. 45, No.1, 1985, pp. 7-11.S. R. Novak, ASTM STP 801, p. 26[62] Nalla RK, Campell JP, Ritchie RO; (2002) Fatigue Fract Engng Mater Strcut, 25[63] Wei R. P; (1997) “Corrosion Fatigue – science and engineering” Conference of RecentAdvances in Corrosion Fatigue”, UK.[64] Toyama K, Konda N; (1989) on International Conference of Evaluation of MaterialsPerformance in Service Environments. Japan.[65] Konda Y, and. Wei R. (1989), on International Conference of Evaluation of MaterialsPerformance in Service Environments. Japan.[66] Raju IS, Newman JC Jr.; (1979) Engineering Fracture Mechanics; 11[67] Newman JC Jr, Raju IS (1981) Eng Fracture Mech;15[68] He M, Hutchinson JW. (2000), Eng. Fract. Mech. 65[69] Acuña-González N, González-Sánchez J, Contreras E, Sauceda I (2009) Effect of MixedMode Loading Induced by Asymmetrical Stress upon Crack Initiation from CorrosionPits. Advanced Materials Research. 65:39-46.[70] ANSYS® Academic Research, Release 11.0, license number: 34216380, Flex ID:18a905230e25. ANSYS, Inc.
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Applied Fracture Mechanicshttp://dx
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PrefaceKnowledge accumulated in the
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Section 1Computational Methods of F
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Fracture Mechanics Based Models of
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