PSI - Issue 13

T. Depover et al. / Procedia Structural Integrity 13 (2018) 1414–1420 Author name / Structural Integrity Procedia 00 (2018) 000–000

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Pérez Escobar, D., Depover, T., Wallaert, E., Duprez, L., Verbeken, K., Verhaege, M., 2012. Combined thermal desorption spectroscopy, differential scanning calorimetry, scanning electron microscopy and X-ray diffraction study of hydrogen trapping in cold deformed TRIP steel, Acta Mat 60, 2593-2605. Pressouyre, G.M., 1979, Classification of hydrogen traps in steel, Met Trans A 10A, 1571-1573. Ronevich, J.A., Speer, J.G., Matlock, D.K., 2010. Hydrogen embrittlement of commercially produced advanced high strength steels, SAE Int Journal Mater Manuf 3, 255-267. Thomas, L.S.R., Li, D., Gangloff, R.P., Scully, J.R., 2002. Trap-governed hydrogen diffusivity and uptake capacity in ultrahigh strength aermet 100 steel, Met Mat Trans A 33A, 1991-2004. Venezuela, J., Liu, Q., Zhang, M., Zhou, Q., Atrens, A., 2015. The influence of hydrogen on the mechanical and fracture properties of some martensitic advanced high strength steels studied using the linearly increasing stress test, Corrosion Science 99, 98-117. Yu, H., Olsen, J.S., Alvaro, A., Olden, V., He, J., Zhang, Z., 2016. A uniform hydrogen degradation law for high strength steels, Engineering Fracture Mechanics 157, 56-71. Wei, F.G., Tsuzaki, K., 2006. Quantitative Analysis on hydrogen trapping of TiC particles in steel, Met Mat Trans A 37A, 331-353.