PSI - Issue 39

Jesús Toribio et al. / Procedia Structural Integrity 39 (2022) 488–493 Author name / Procedia Structural Integrity 00 (2021) 000–000

493

6

References

Cherry, B.W., Price, and S.M., 1980. Pitting, crevice and stress corrosion cracking studies of cold drawn eutectoid steels. Corrosion Science 20, 1163-1183. Costa, J.E., Thompson, A.W., 1982. Hydrogen cracking in nominally pearlitic 1045 steel. Metallurgical Transactions 13A, 1315-1318. Hredil, M.I, Toribio, J., 2014. Corrosion resistance of prestressing steel wires. Physicochemical Mechanics of Materials 5, 39-43. Hredil, M.I, Toribio, J., 2016. Susceptibility of prestressing steel wires to hydrogen assisted cracking in alkali medium simulating concrete pore solution. Physicochemical Mechanics of Materials 5, 61-65. Hredil, M.I, Toribio, J., Nykyforchyn, H.M., 2015. Analysis of the plasticity characteristics of progressively drawn pearlitic steel wires. Physicochemical Mechanics of Materials 4, 71-75. Li, L., Sagüés, A.A., 2002. Chloride corrosion threshold of reinforcing steel in alkaline solutions - cyclic polarization behavior. Corrosion 58, 305– 316. Nykyforchyn, H., Tsyrul’nyk, O., Petryna, D., Hredil, M.I, 2009. Degradation of steels used in gas main pipelines during their 40-year operation. Strength of Materials 41, 501–505. Tang, Y.M., Miao, Y.F., Zuo, Y., Zhang, G.D., Wang, C.L., 2012. Corrosion behavior of steel in simulated concrete pore solutions treated with calcium silicate hydrates. Construction and Building Materials 30, 252–256. Thompson, A.W., Chesnutt, J.C., 1979. Identification of a fracture mode: the tearing topography surface. Metallurgical Transactions 10A, 1193-1196. Toribio, J., 1992. Fractographic evidence of hydrogen transport by diffusion in pearlitic steels. Journal of Materials Science Letters 11, 1151-1153. Toribio, J., 1993. Role of hydrostatic stress in hydrogen diffusion in pearlitic steel. Journal of Materials Science 28, 2289-2298. Toribio, J., 1996. Hydrogen-plasticity interactions in pearlitic steel: a fractographic and numerical study. Materials Science and Engineering A219, 180-191. Toribio, J., 1997. Fracture mechanics approach to hydrogen-assisted microdamage in eutectoid steel. Metallurgical and Materials Transactions 28A, 191-197. Toribio, J., 2012. Time-dependent triaxiality effects on hydrogen-assisted micro-damage evolution in pearlitic steel. ISIJ International 52, 228-233. Toribio, J., Ayaso, F.J., 2020. On the necessity of triaxiality and microstructural orientation to produce anisotropic fracture in cold drawn pearlitic steel: Resembling John Ford’s Monument Valley . Procedia Structural Integrity 28, 2416–2423 Toribio, J., Ayaso, F.J., González, B., Matos, J.C., Vergara, D., Lorenzo, M., 2016. Tensile fracture behavior of progressively-drawn pearlitic steels. Metals 6, paper 114. Toribio, J., Ayaso, F.J., Ovejero, E., 2004. Evolution of hydrogen-assisted micro-damage in progressively drawn pearlitic steel. Materials Letters 58, 2541-2544. 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., 1998. Anisotropic stress corrosion cracking behaviour of prestressing steel. Materials and Corrosion 49, 34-38. Toribio, J., Lancha, A.M., Elices, M., 1991. 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., Ovejero, E., 1997. Microstructure evolution in a pearlitic steel subjected to progressive plastic deformation. Materials Science and Engineering A234-236, 579-582. Toribio, J., Ovejero, E., 1998a. Microstructure orientation in a pearlitic steel subjected to progressive plastic deformation. Journal of Materials Science Letters 17, 1037-1040. Toribio, J., Ovejero, E., 1998b. Effect of cumulative cold drawing on the pearlite interlamellar spacing in eutectoid steel. Scripta Materialia 39, 323-328. Toribio, J., Ovejero, E., 1998c. Effect of cold drawing on microstructure and corrosion performance of high-strength steel. Mechanics of Time Dependent Materials 1, 307-319. Toribio, J., Ovejero, E., 1999. Micromechanics of hydrogen assisted cracking in progressively drawn steels. Scripta Materialia 40, 943-948. Toribio, J., Ovejero, E., 2001. Microstructure-based modelling of hydrogen assisted cracking in pearlitic steels. Materials Science and Engineering A319–321, 540–543. Toribio, J., Ovejero, E., 2007. Hydrogen assisted cracking in progressively drawn pearlitic steel. Corrosion Science 49, 3539–3556. Toribio, J., Vasseur, E., 1997. Hydrogen-assisted micro-damage evolution in pearlitic steel. Journal of Materials Science Letters 16, 1345-1348. Vehovar, L., Kuhar, V., Vehovar, A., 1998. Hydrogen-assisted stress-corrosion of prestressing wires in a motorway viaduct. Engineering Failure Analysis 5 (1998) 21-27.