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Elisabetta Monaldo
Researcher at Roma Tre University
Publications - 11
Citations - 230
Elisabetta Monaldo is an academic researcher from Roma Tre University. The author has contributed to research in topics: Finite element method & Engineering. The author has an hindex of 3, co-authored 9 publications receiving 131 citations. Previous affiliations of Elisabetta Monaldo include Università degli Studi Niccolò Cusano & Sapienza University of Rome.
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Basalt-based fiber-reinforced materials and structural applications in civil engineering
TL;DR: A systematic review of the state of the art on basalt fibers, basalt-based composite materials and their applications in civil engineering field, by tracing main available evidence and highlighting perspective aspects and open problems is presented in this article.
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A FSI computational framework for vascular physiopathology: A novel flow-tissue multiscale strategy.
Daniele Bianchi,Elisabetta Monaldo,Alessio Gizzi,Michele Marino,Simonetta Filippi,Giuseppe Vairo +5 more
TL;DR: A case study associated to a patient-specific aortic abdominal aneurysmatic geometry is numerically investigated, highlighting advantages gained from the proposed multiscale strategy, as well as showing soundness and effectiveness of the established framework for assessing useful clinical quantities and risk indexes.
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Effectiveness of some technical standards for debonding analysis in FRP-concrete systems
TL;DR: In this article, a wide database of experimental data collected from debonding tests associated to fiber-reinforced polymers (FRP) based on carbon, glass and basalt fibers is defined and analyzed.
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Multiscale technique for the analysis of 3D-printed materials
Elisabetta Monaldo,Sonia Marfia +1 more
TL;DR: The application of a multiscale strategy, employing a reduced order method at the Gauss point level for the analysis of 3D-printed structural elements, could represent a good compromise in terms of accuracy of the results and computational efficiency.
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Computational homogenization of 3D printed materials by a reduced order model
Elisabetta Monaldo,Sonia Marfia +1 more
TL;DR: In this article, a Mixed Transformation Field Analysis (MxTFA) based on a mixed-stress variational formulation of the elasto-plastic theory is developed to investigate the influence of the heterogeneity of the 3D printed material at the microscale on the overall response.