PSI - Issue 41

Fabrizio Greco et al. / Procedia Structural Integrity 41 (2022) 576–588 Author name / Structural Integrity Procedia 00 (2019) 000–000

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Freund, L. B., 1998. Dynamic fracture mechanics, Cambridge university press. Gaetano, D., Greco, F., Leonetti, L., Pascuzzo, A., Skrame, A., 2022. Comparative finite element modelling approaches for the seismic vulnerability analysis of historical masonry structures: the case study of the Cathedral of Catanzaro (Italy). International Journal of Masonry Research and Innovation 1, Greco, F., Ammendolea, D., Lonetti, P., Pascuzzo, A., 2021a. Crack propagation under thermo-mechanical loadings based on moving mesh strategy. Theoretical and Applied Fracture Mechanics 114, 103033. Greco, F., Gaetano, D., Leonetti, L., Lonetti, P., Pascuzzo, A., 2022. Structural and seismic vulnerability assessment of the Santa Maria Assunta Cathedral in Catanzaro (Italy): classical and advanced approaches for the analysis of local and global failure mechanisms. Frattura ed integrità strutturale 16, Greco, F., Leonetti, L., De Maio, U., Rudykh, S., Pranno, A., 2021b. Macro- and micro-instabilities in incompressible bioinspired composite materials with nacre-like microstructure. Composite Structures 269, 114004. Greco, F., Leonetti, L., Lonetti, P., Luciano, R., Pranno, A., 2020a. A multiscale analysis of instability-induced failure mechanisms in fiber-reinforced composite structures via alternative modeling approaches. Composite Structures 251, 112529. Greco, F., Leonetti, L., Luciano, R., Pascuzzo, A., Ronchei, C., 2020b. A detailed micro-model for brick masonry structures based on a diffuse cohesive-frictional interface fracture approach. Procedia Structural Integrity 25, 334-347. Greco, F., Leonetti, L., Medaglia, C. M., Penna, R., Pranno, A., 2018a. Nonlinear compressive failure analysis of biaxially loaded fiber reinforced materials. Composites Part B: Engineering 147, 240-251. Greco, F., Leonetti, L., Pranno, A., Rudykh, S., 2020c. Mechanical behavior of bio-inspired nacre-like composites: A hybrid multiscale modeling approach. 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