PSI- Issue 9

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Author name / Structural Integrity Procedia 00 (2018) 000–000

Jesús Toribio / Procedia Structural Integrity 9 (2018) 317–322

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Acknowledgements

This paper is a review of previous research by the author. Acknowledgement is gratefully given to the co-authors of previous publications included in the list of references given below, with special mention to Beatriz González and Juan-Carlos Matos of the University of Salamanca. In addition, the author wishes to acknowledge the financial support provided by the following Spanish Institutions: Ministry for Science and Technology (MICYT; Grant MAT2002-01831), Ministry for Education and Science (MEC; Grant BIA2005-08965), Ministry for Science and Innovation (MICINN; Grant BIA2008-06810), Ministry for Economy and Competitiveness (MINECO; Grant BIA2011-27870) and Junta de Castilla y León (JCyL; Grants SA067A05, SA111A07 and SA039A08). Embury, JD., Fisher, RM., 1966. The Structure and Properties of Drawn Pearlite. Acta Metallurgica 14, 147-159. Langford, G., 1977. Deformation of Pearlite. Metallurgical Transactions 8A, 861-875. Ridley, N., 1984. A Review of the Data on the Interlamellar Spacing of Pearlite. Metallurgical Transactions 15A, 1019-1036. Toribio, J., Ayaso, FJ., González, B., Matos, JC., Vergara, D., Lorenzo, M., 2016. Tensile Fracture Behavior of Progressively-Drawn Pearlitic Steels. Metals 6, paper 114. Toribio, J., González, B., Matos, JC., 2007a. Fatigue Crack Propagation in Cold Drawn Steel. Materials Science and Engineering A468-470, 267-272. Toribio, J., González, B., Matos, JC., 2010. Fatigue and Fracture Paths in Cold Drawn Pearlitic Steel. Engineering Fracture Mechanics 77, 2024-2032. Toribio, J., González, B., Matos, JC., 2014. A Macro- and Micro-Approach to the Anisotropic Fatigue Behaviour of Hot-Rolled and Cold-Drawn Pearlitic Steel. Engineering Fracture Mechanics 123, 70-76. Toribio, J., González, B., Matos, JC., 2015. Analysis of Fatigue Crack Paths in Cold Drawn Pearlitic Steels. Materials 8, 7439-7446. Toribio, J., González, B., Matos, JC., 2016. Anisotropic Fatigue & Fracture Behaviour in Hot-Rolled and Cold-Drawn Pearlitic Steel Wires. Key Engineering Materials 713, 103-106. Toribio, J., González, B., Matos, JC., 2017. Initiation and Propagation of Fatigue Cracks in Cold Drawn Pearlitic Steel Wires. Theoretical and Applied Fracture Mechanics 92, 410-419. Toribio, J., González, B., Matos, JC., Ayaso, FJ., 2007b. Micro- and Macro-Approach to the Fatigue Crack Propagation in High Strength Pearlitic Steel Wires. Key Engineering Materials 348-349, 681-684. Toribio, J., Matos, JC., González, B., 2009. Micro- and Macro-Approach to the Fatigue Crack Growth in Progressively Drawn Pearlitic Steels at Different R-ratios. International Journal of Fatigue 31, 2014-2021. 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., Toledano, M., 2000. Fatigue and Fracture Performance of Cold Drawn Wires for Prestressed Concrete. Construction and Building Materials 14, 47-53. References