PSI - Issue 59

Jesús Toribio et al. / Procedia Structural Integrity 59 (2024) 137–144 Jesús Toribio / Procedia Structural Integrity 00 ( 2024) 000 – 000

144

8

Toribio, J., Kharin, V., 1997b. The Effect of History on Hydrogen Assisted Cracking: 1. Coupling of Hydrogenation and Crack Growth. International Journal of Fracture 88, 233-245. Toribio, J., Kharin, V., 1997c. The Effect of History on Hydrogen Assisted Cracking: 2. A Revision of K -Dominance. International Journal of Fracture 88, 247-258. Toribio, J., Kharin, V.,1998a. Evaluation of Hydrogen Assisted Cracking: The Meaning and Significance of the Fracture Mechanics Approach. Nuclear Engineering and Design 182, 149-164. Toribio, J., Kharin, V., 1998b. Stress Corrosion Behaviour of High-Strength Steel: The Role of Fatigue Pre-Cracking. Journal of the Mechanical Behavior of Materials 9, 205-225. Toribio, J., Kharin, V., 1999. Role of Fatigue Crack Closure Stresses in Hydrogen-Assisted Cracking. ASTM STP 1401, 329-342 Toribio, J., Kharin, V., 2000a. A Hydrogen Diffusion Model for Applications in Fusion Nuclear Technology. Fusion Engineering and Design 51 52, 213-218. Toribio, J., Kharin, V., 2000b. Role of Cyclic Pre-Loading in Hydrogen Assisted Cracking. ASTM STP 1343, 440-458. Toribio, J., Kharin, V., 2002. Influence of Cyclic Preloading on the Hydrogen Degradation of Materials. Materials Science 38, 514-525. Toribio, J., Kharin, V., 2004. Role of Crack Tip Mechanics in Stress Corrosion Cracking of High-Strength Steels. International Journal of Fracture 126, L57-L63. Toribio, J., Kharin, V., 2006. Fractographic and Numerical Study of Hydrogen – Plasticity Interactions Near a Crack Tip. Journal of Materials Science 41, 6015-6025. Toribio, J., Kharin, V., 2012. A Critical Review of Existing Hydrogen Diffusion Models Accounting for Different Physical Variables. Keynote Plenary Lecture, ESIS International Conference WEAR PROCESSES 2012, Swinoujscie, Poland, September 12-14, 2012. Toribio, J., Kharin, V., 2013a. Hydrogen Diffusion Equations Accounting for Trapping: The Short-comings of the McNabb-Foster Approach. Invited Talk, University of Fukuoka, Japan, January 2013. Toribio, J., Kharin, V., 2013b. Modelling Hydrogen Diffusion Assisted by Stress and Strain. Invited Lecture, Joint HYDROGENIUS & IC 2 NER International Workshop on Hydrogen-Materials interactions, Kyushu University Ito Campus, Japan, January 2013. Toribio, J., Kharin, V., 2013c. Continuum Modelling of Trap-Affected Hydrogen Diffusion in Metals. Opening Plenary Lecture, International Conference ―New Trends in Fatigue and Fracture‖ (NT2F13), Moscow, Russia, May 13 -16, 2013. Toribio, J., Kharin, V., 2013d. Review of Hydrogen Diffusion Models for the Analysis of Hydrogen Embrittlement of Materials. Keynote Lecture, 13 th International Conference on Fracture (ICF13), June 16-21, 2013. Toribio, J., Kharin, V., 2013e. Continuum Modelling of Trap-Affected Hydrogen Diffusion in Hydrogen Assisted Fracture Analysis. Anales de Mecánica de la Fractura 30, 413-418. Toribio, J., Kharin, V., 2015. A Generalised Model of Hydrogen Diffusion in Metals with Multiple Trap Types. Philosophical Magazine 95, 3429-3451. Toribio, J., Kharin, V., 2017. HydrogenTransport to Fracture Sites in Metals and Alloys: Multiphysics Modelling. Procedia Structural Integrity, 5, 1291-1298. Toribio, J., Lancha, A.M., 1992. On the Meaning of Thresholds in Environmentally Assisted Cracking. Journal of Materials Science Letters 11, 1085-1086. Toribio, J., Lancha, A.M., 1993. Effect of Cold Drawing on Susceptibility to Hydrogen Embrittlement of Prestressing Steel. Materials and Structures 26, 30-37. Toribio, J., Lancha, A.M., 1996. Effect of Cold Drawing on Environmentally Assisted Cracking of Cold-Drawn Steel. Journal of Materials Science 31, 6015-6024. Toribio, J., Lancha, A.M., 1998. Anisotropic Stress Corrosion Cracking Behaviour of Prestressing Steel. Materials and Corrosion 49, 34-38. Toribio, J., Lancha, A.M., 1996. Overload Retardation Effects on Stress Corrosion Behaviour of Prestressing Steel. Construction and Building Materials 10, 501-505. Toribio, J., Lancha, A.M., Elices, M., 1991a. Macroscopic Variables Governing the Microscopic Fracture of Pearlitic Steels. Materials Science and Engineering A145, 167-177. Toribio, J., Lancha, A.M., Elices, M., 1991b. Characteristics of the New Tearing Topography Surface. Scripta Metallurgica et Materialia 25, 2239-2244. Toribio, J., Lancha, A.M., Elices, M., 1992. The Tearing Topography Surface as the Zone Associated with Hydrogen Embrittlement Processes in Pearlitic Steel. Metallurgical Transactions 23A, 1573 - 1584. Toribio, J., Lancha, A.M., Elices, M., 1993. Factors Influencing Stress Corrosion Cracking of High Strength Pearlitic Steels. Corrosion Science 35, 521-530. Toribio, J., Vasseur, E., 1997. Hydrogen-Assisted Micro-Damage Evolution in Pearlitic Steel. Journal of Materials Science Letters 16, 1345-1348. Van Leeuwen, H.P., 1974. The Kinetics of Hydrogen Embrittlement: A Quantitative Diffusion Model. Engineering Fracture Mechanics 6, 141 161.