applied fracture mechanics

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Early Corrosion Fatigue Damage on Stainless Steels Exposed to Tropical Seawater:A Contribution from Sensitive Electrochemical Techniques 257[5] Acuña N, Ortega-Morales B O, Valadez-Gonzalez A (2006) Biolm colonizationdynamics and its inuence of austenitic UNS S31603 stainless steel exposed to Gulf ofMexico seawater. Mar. Biotechnol. 8: 62–70.[6] Scotto V, Lai M E (1998) The ennoblement of stainless steels in seawater: a likelyexplanation coming from the eld. Corros. Sci. 40:1007–1018.[7] Mattila K, Carpen L, Raaska L, Alakomi H, Hakkarainen T, Salkinoja-Salonen MS (2000)Impact of biological factors on the ennoblement of stainless steel in Baltic seawater. JIndust Microbiol Biotechnol 24: 410–420[8] Wang W, Wang J, Li X, Xu H, Wu J (2004) Inuence of biolm growth on corrosionpotential of metals immersed in seawaters. Mater. Corros.. 55: 30–35.[9] Gartland O P (1991) Aspects of testing stainless steels for seawater applications. Marineand Microbial Corrosion. p. 134[10] Mansfeld F, Tsai R, Shih H, Little B, Ray R, Wagner P (1990) Results of exposure ofstainless steels and titanium to natural seawater CORROSION NACE 90, paper No. 190[11] Wei R P and Speidel M O (1972) Phenomenological aspects of corrosion fatigue, criticalintroduction. In: Corrosion Fatigue: Chemestry, Mechanics and Microstructure, NACE-2: 379-380.[12] Jaske C E, Payer J H, Balint S V (1981) Corrosion Fatigue of Metals in MarineEnvironments. Springer – Verlag and Battelle Press. P.[13] Kim K, Hartt W H (1995) Title. Journal of Offshore Mechanics and Artic Engineering,117: p. 183.[14] Akid R, Dmytrakh IM, Gonzalez-Sanchez J (2006) Fatigue Damage Accumulation:Aspects of Environmental Interaction. Materials Science, 42 (1): 42-53.[15] Boukerrou and Cottis R.A.; (1993), Corrosion Science, 35, No. 1-4, p. 577.[16] Acuña N (2005) Fatigue Corrosion Cracking of an Austenitic Stainless Steel UsingElectrochemical Noise Technique. Anti. Corr. Meth. Mater. 52: 139-144.[17] kid R., Dmytrakh I M, Gonzalez-Sanchez J (2006) Fatigue damage accumulation: therole of corrosion on the early stages of crack development. Corros. Engn. Science andTech. 41 (4): 328-335[18] Acuña-González N., García-Ochoa E., González-Sánchez J.; (2008), Assessment of thedynamics of corrosion fatigue crack initiation applying recurrence plots to the analysisof electrochemical noise data, Int. J. Fatigue 30:1211–1219.[19] Horner D.A., Connolly B.J., Zhou S., Crocke L. and Turnbull A.; (2011) Novel images ofthe evolution of stress corrosion cracks from corrosion pits. Corrosion Science 53:3466–3485.[20] Goswami T K, Hoeppner D W (1995) Pitting Corrosion Fatigue of Structural Materials.In: Chang C I, editor. Sun Structural Integrity in Aging aircraft. AD-Vol. 47. In: ASME,New York.[21] Shreir L.L; (1976), “CORROSION Volume 1“second edition, Newnes-Butterworths,London U.K.[22] Bockris J.O’M. and Reddy A.K.; (1970), “Modern Electrochemistry Vol. 2” PlenumPress, USA.
258Applied Fracture Mechanics[23] Pourbaix M.; (1984), “On the Mechanisms, Teaching, and Research in LocalisedCorrosion“, Journal of Electrochemical Society, Vol.131, No. 8[24] Böhni, H.; (1987) “ Localised corrosion in corrosion mechanisms”, p. 285, Mansfeld andDekker Eds[25] Böhni H.; (1992), “Localised corrosion- Mechanisms and methods”, Materials ScienceForum Vols. 111-112, p. 401,Trans Tech Publications Switzerland.[26] Williams D. E., Kilburn M. R., Cliff J., Waterhouse G.I.; (2010), “Composition changesaround sulphide inclusions in stainless steels, and implications for the initiation ofpitting corrosion”, Corrosion Science 52:3702–3716[27] Jones, D.; (1992), Principles and prevention of corrosion, Macmillan Publishing Co.,N.Y., pg. 4.[28] Marcus P., Olefjord I.; (1988), A Round Robin on combined electrochemical andAES/ESCA characterization of the passive lms on Fe–Cr and Fe–Cr–Mo alloys, Corros.Sci. 28, 589–602.[29] Mughrabi H., Wang R., Different K., and Essmann U., (1983); STP 811, American Societyfor Testing and Materials: p. 5[30] Dawson, J.L., (1996), “ECN Measurement: The Definitive In-Situ Technique forCorrosion[31] Legat, A. (1993), “EC Noise As the Basis of Corrosion Monitoring”, Proceedings 12thInternational Corrosion Congress, NACE, Houston. 1410-1419.[32] Dawson, J.L. et. al., (1989), “Corrosion Monitoring using ECN Measurements”,Proceedings International Corrosion Congress, NACE, Houston, TX, Paper 89.[33] Legat, A., Dolecek, V. (1995), “Corrosion Monitoring System Based on Measurement &Analysis of EC Noise”, Corrosion Science, vol. 51 no. 4, pp. 295-307.[34] Szklarska-Smialowska, Z; (1986), “Pitting Corrosion of Metals”, NACE International,Houston, TX[35] Benish, M.L., et.al. (1998), “A new electrochemical noise technique for monitoring thelocalized corrosion of 304 stainless steel in chloride-containing solutions”, ProceedingsInternational Corrosion Congress, NACE, San Diego, Paper 370[36] Roberge, P.R., Wang, S. and Roberge, R. (1996); “Stainless steel pitting in thiosulfatesolutions with Electrochemical Noise”, Corrosion, vol. 52 no. 10, pp. 733-737[37] Watanabe, Y. et.al., (1998), “Electrochemical noise characteristics of IGSCC in stainlesssteels in pressurized high-temperature water”, Proceedings International CorrosionCongress, NACE, San Diego, Paper 129.[38] Luo J., and Qiao L. J; (1999), “Application and evaluation of processing methods ofelectrochemical noise generated during Stress Corrosion Cracking”, Corrosion, vol. 55no. 9, pp. 870-876.[39] González- Rodríguez, J. G., Salinas Bravo, V. M., García- Ochoa E. and Díaz Sánchez, A.(1997), “Use of electrochemical potential noise to detect initiation and propagation ofstress corrosion cracking in a 17-4 PH steel”, Corrosion, vol. 53 no. 9, pp. 693-699.[40] González-Sánchez J. (2002); PhD thesis, Corrosion fatigue initiation in stainless steels:the scanning reference electrode technique, Sheffield Hallam University, Sheffield, UK.[41] Djoudjou R., Lemaitre C., Beranger G.; (1993), Corrosion Reviews, Vol. 11, p. 157.
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PrefaceKnowledge accumulated in the
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Section 1Computational Methods of F
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Chapter 4Fracture of Dental Materia
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Fracture Mechanics Based Models of
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