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Behavior of cracked steel plates strengthened with adhesively bonded CFRP laminates under fatigue loading: experimental and analytical study
Doroudi, Y., Fernando, D., Hosseini, A., & Ghafoori, E. (2021). Behavior of cracked steel plates strengthened with adhesively bonded CFRP laminates under fatigue loading: experimental and analytical study. Composite Structures, 266, 113816 (17 pp.). https://doi.org/10.1016/j.compstruct.2021.113816
Behavior of prestressed CFRP plates bonded to steel substrate: numerical modeling and experimental validation
Martinelli, E., Hosseini, A., Ghafoori, E., & Motavalli, M. (2019). Behavior of prestressed CFRP plates bonded to steel substrate: numerical modeling and experimental validation. Composite Structures, 207, 974-984. https://doi.org/10.1016/j.compstruct.2018.09.023
Prediction of autogenous shrinkage in fly ash blended cement systems
Hu, Z. (2017). Prediction of autogenous shrinkage in fly ash blended cement systems [Doctoral dissertation, EPFL]. https://doi.org/10.5075/epfl-thesis-7829
Hygrical shrinkage stresses in tiling systems: Numerical modeling combined with field studies
Herwegh, M., Zurbriggen, R., Mettier, R., Winnefeld, F., Kaufmann, J., & Wetzel, A. (2015). Hygrical shrinkage stresses in tiling systems: Numerical modeling combined with field studies. Cement and Concrete Composites, 55, 1-10. https://doi.org/10.1016/j.cemconcomp.2014.06.016
Internal-curing water distribution in concrete at early ages: experiments and modelling
Lura, P., & Wyrzykowski, M. (2014). Internal-curing water distribution in concrete at early ages: experiments and modelling. In V. Mechtcherine & C. Schroefl (Eds.), Proceedings Pro: Vol. 95. Application of superabsorbent polymers and other new admixtures in concrete construction (pp. 71-80).
Experimental and numerical investigation on postcracking behavior of steel fiber reinforced concrete
Michels, J., Christen, R., & Waldmann, D. (2013). Experimental and numerical investigation on postcracking behavior of steel fiber reinforced concrete. Engineering Fracture Mechanics, 98, 326-349. https://doi.org/10.1016/j.engfracmech.2012.11.004
A computational study of the effect of structural anisotropy of porous asphalt on hydraulic conductivity
Gruber, I., Zinovik, I., Holzer, L., Flisch, A., & Poulikakos, L. D. (2012). A computational study of the effect of structural anisotropy of porous asphalt on hydraulic conductivity. Construction and Building Materials, 36, 66-77. https://doi.org/10.1016/j.conbuildmat.2012.04.094
Two-scale modeling of internal curing in maturing concrete
Wyrzykowski, M., Lura, P., Gawin, D., & Pesavento, F. (2010). Two-scale modeling of internal curing in maturing concrete (p. (4 pp.). Presented at the International RILEM symposium on concrete modelling – CONMOD'10. .
Physically based finite element model of the face
Barbarino, G., Jabareen, M., Trzewik, J., & Mazza, E. (2008). Physically based finite element model of the face. In F. Bello & P. J. E. Edwards (Eds.), Lecture Notes in Computer Science: Vol. 5104. Biomedical simulation (pp. 1-10). https://doi.org/10.1007/978-3-540-70521-5_1