PSI - Issue 39

Arturo Pascuzzo et al. / Procedia Structural Integrity 39 (2022) 649–662 Author name / Structural Integrity Procedia 00 (2019) 000–000

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University of Calabria”. Domenico Ammendolea gratefully acknowledge financial support from “Programma Operativo Regione (POR) Calabria FESR-FSE 2014/2020”. References Ammendolea, D., Greco, F., Lonetti, P., Luciano, R., Pascuzzo, A., 2021. Crack propagation modeling in functionally graded materials using Moving Mesh technique and interaction integral approach. Composite Structures 269, 114005. Barenblatt, G. I., 1962. The Mathematical Theory of Equilibrium Cracks in Brittle Fracture, in." Advances in Applied Mechanics" . Dryden, H. L., von Kármán, T., Kuerti, G., van den Dungen, F. H. and Howarth, L., Elsevier. 7: 55-129. Bayesteh, H., Mohammadi, S., 2013. XFEM fracture analysis of orthotropic functionally graded materials. Composites Part B: Engineering 44, 8 25. Bruno, D., Lonetti, P., Pascuzzo, A., 2016. An optimization model for the design of network arch bridges. Computers & Structures 170, 13-25. Comi, C., Mariani, S., 2007. Extended finite element simulation of quasi-brittle fracture in functionally graded materials. Computer Methods in Applied Mechanics and Engineering 196, 4013-4026. COMSOL, 2018. COMSOL Multiphysics® v. 5.4. Stockholm, Sweden. De Maio, U., Cendón, D., Greco, F., Leonetti, L., Nevone Blasi, P., Planas, J., 2021. Investigation of concrete cracking phenomena by using cohesive fracture-based techniques: A comparison between an embedded crack model and a refined diffuse interface model. Theoretical and Applied Fracture Mechanics 115, 103062. De Maio, U., Fabbrocino, F., Greco, F., Leonetti, L., Lonetti, P., 2019a. A study of concrete cover separation failure in FRP-plated RC beams via an inter-element fracture approach. Composite Structures 212, 625-636. De Maio, U., Fantuzzi, N., Greco, F., Leonetti, L., Pranno, A., 2020a. Failure Analysis of Ultra High-Performance Fiber-Reinforced Concrete Structures Enhanced with Nanomaterials by Using a Diffuse Cohesive Interface Approach. Nanomaterials 10, De Maio, U., Greco, F., Leonetti, L., Luciano, R., Nevone Blasi, P., Vantadori, S., 2019b. A refined diffuse cohesive approach for the failure analysis in quasibrittle materials—part II: Application to plain and reinforced concrete structures. Fatigue and Fracture of Engineering Materials and Structures 42, 2764-2781. De Maio, U., Greco, F., Leonetti, L., Luciano, R., Nevone Blasi, P., Vantadori, S., 2020b. A refined diffuse cohesive approach for the failure analysis in quasibrittle materials—part I: Theoretical formulation and numerical calibration. Fatigue and Fracture of Engineering Materials and Structures 43, 221-241. Dinachandra, M., Alankar, A., 2020. A phase-field study of crack propagation and branching in functionally graded materials using explicit dynamics. Theoretical and Applied Fracture Mechanics 109, 102681. Dugdale, D. S., 1960. Yielding of steel sheets containing slits. Journal of the Mechanics and Physics of Solids 8, 100-104. Erdogan, F., Sih, G. C., 1963. On the Crack Extension in Plates Under Plane Loading and Transverse Shear. Journal of Basic Engineering 85, 519 525. 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., 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. Composite Structures 233, 111625. Greco, F., Lonetti, P., Luciano, R., Nevone Blasi, P., Pranno, A., 2018b. Nonlinear effects in fracture induced failure of compressively loaded fiber reinforced composites. Composite Structures 189, 688-699. Greco, F., Lonetti, P., Pascuzzo, A., 2013. Dynamic Analysis of Cable-Stayed Bridges Affected by Accidental Failure Mechanisms under Moving Loads. Mathematical Problems in Engineering 2013, 302706. Greco, F., Lonetti, P., Pascuzzo, A., 2020d. A moving mesh FE methodology for vehicle–bridge interaction modeling. Mechanics of Advanced Materials and Structures 27, 1256-1268. Hirshikesh, Natarajan, S., Annabattula, R. K., Martínez-Pañeda, E., 2019. Phase field modelling of crack propagation in functionally graded materials. Composites Part B: Engineering 169, 239-248. Kim, J.-H., Paulino, G. H., 2004a. Consistent Formulations of the Interaction Integral Method for Fracture of Functionally Graded Materials. Journal of Applied Mechanics 72, 351-364. Kim, J.-H., Paulino, G. H., 2004b. Simulation of Crack Propagation in Functionally Graded Materials Under Mixed-Mode and Non-Proportional Loading. Mechanics and Materials in Design 1, 63-94. Kuna, M., 2012. Finite Elements in Fracture Mechanics. Theory - Numerics - Applications. London, Springer, Dordrecht. Lonetti, P., Pascuzzo, A., 2014. Design analysis of the optimum configuration of self-anchored cable-stayed suspension bridges. Structural Engineering and Mechanics 51, 847-866. Lonetti, P., Pascuzzo, A., 2016. A numerical study on the structural integrity of self-anchored cable-stayed suspension bridges. Frattura ed Integrita Strutturale 10, 359-376. Lonetti, P., Pascuzzo, A., 2020. A Practical Method for the Elastic Buckling Design of Network Arch Bridges. International Journal of Steel Structures 20, 311-329.