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Characterization of austenitic stainless steels with regard to environmentally assisted fatigue in simulated light water reactor conditions
Bruchhausen, M., Dundulis, G., McLennan, A., Arrieta, S., Austin, T., Cicero, R. n, … Vankeerberghen, M. (2021). Characterization of austenitic stainless steels with regard to environmentally assisted fatigue in simulated light water reactor conditions. Metals, 11(2), 307 (20 pp.). https://doi.org/10.3390/met11020307
Helium effects on 316L austenitic stain less steel fracture mechanism
Villacampa, I., Chen, J. C., Spätig, P., Seifert, H. P., & Duval, F. (2016). Helium effects on 316L austenitic stain less steel fracture mechanism. J. Toribio, V. Mantič, A. Sáez, & M. H. Aliabadi (Eds.), Key engineering materials: Vol. 713. (pp. 228-231). Presented at the 15th international conference on fracture and damage mechanics (FDM2016). https://doi.org/10.4028/www.scientific.net/KEM.713.228
Homogenized helium effects on IASCC susceptibility
Villacampa, I., Chen, J. C., Spätig, P., Seifert, H. P., & Duval, F. (2016). Homogenized helium effects on IASCC susceptibility. In Vol. 3. European corrosion congress (EUROCORR 2016) (pp. 2010-2019).
Fatigue crack initiation and crystallographic growth in 316L stainless steel
Sistaninia, M., & Niffenegger, M. (2015). Fatigue crack initiation and crystallographic growth in 316L stainless steel. International Journal of Fatigue, 70, 163-170. https://doi.org/10.1016/j.ijfatigue.2014.09.010
Prediction of damage-growth based fatigue life of polycrystalline materials using a microstructural modeling approach
Sistaninia, M., & Niffenegger, M. (2014). Prediction of damage-growth based fatigue life of polycrystalline materials using a microstructural modeling approach. International Journal of Fatigue, 66, 118-126. https://doi.org/10.1016/j.ijfatigue.2014.03.018
Thermomechanical and isothermal fatigue behavior of 347 and 316L austenitic stainless tube and pipe steels
Ramesh, M., Leber, H. J., Janssens, K. G. F., Diener, M., & Spolenak, R. (2011). Thermomechanical and isothermal fatigue behavior of 347 and 316L austenitic stainless tube and pipe steels. International Journal of Fatigue, 33(5), 683-691. https://doi.org/10.1016/j.ijfatigue.2010.11.005
Effect of static load hold periods on the corrosion fatigue behavior of austenitic stainless steels in simulated BWR environments
Seifert, H. P., Ritter, S., & Leber, H. (2011). Effect of static load hold periods on the corrosion fatigue behavior of austenitic stainless steels in simulated BWR environments. In J. T. Busby, G. Ilevbare, & P. L. Andresen (Eds.), Vol. 1. Proceedings of the 15th international conference on environmental degradation of materials in nuclear power systems-water reactors (pp. 547-560). https://doi.org/10.1007/978-3-319-48760-1_33
Corrosion fatigue crack growth behavior of austenitic stainless steels under simulated LWR conditions
Ritter, S., & Seifert, H. P. (2008). Corrosion fatigue crack growth behavior of austenitic stainless steels under simulated LWR conditions. In 17th international corrosion congress 2008: corrosion control in the service of society: Vol. 2. Proceedings of the 17th international corrosion congress 2008: corrosion control in the service of society (p. 2936 (13 pp.). NACE International.
Detection of stress corrosion cracking in a simulated BWR environment by combined electrochemical potential noise and direct current potential drop measurements
Ritter, S., & Seifert, H. P. (2008). Detection of stress corrosion cracking in a simulated BWR environment by combined electrochemical potential noise and direct current potential drop measurements. Energy Materials, 3(2), 72-80. https://doi.org/10.1179/174892408X394173
Monitoring fatigue degradation in austenitic stainless steels
Kalkhof, D., Grosse, M., Niffenegger, M., & Leber, H. J. (2004). Monitoring fatigue degradation in austenitic stainless steels. Fatigue and Fracture of Engineering Materials and Structures, 27(7), 595-607. https://doi.org/10.1111/j.1460-2695.2004.00784.x