Biography

Fabrizio Mollaioli

Sapienza University of Rome, Italy

Professor


Email: fabrizio.mollaioli@gmail.com


Qualifications

1996 Ph.D., Sapienza University of Rome, Structural Engineering



Publications (selected)

1. Tropea, Giulio & Angelucci, Giulia & Bernardini, Davide & Quaranta, Giuseppe & Mollaioli, Fabrizio. (2024). New energy-based methodology to characterize nonlinear seismic response. Engineering Structures. 325. 10.1016/j.engstruct.2024.119488.

2. Sardone, Laura & Angelucci, Giulia & Mollaioli, Fabrizio & Marano, Giuseppe. (2024). Minisymposium 65: "Parametric Structural Design: Optimizing Materials, Environmental Impact, and Cost". 10.13140/RG.2.2.13477.31208.

3. Angelucci, Giulia & Quaranta, Giuseppe & Mollaioli, Fabrizio & Kunnath, Sashi. (2024). Interpretable machine learning models for displacement demand prediction in reinforced concrete buildings under pulse-like earthquakes. Journal of Building Engineering. 95. 110124. 10.1016/j.jobe.2024.110124.

4. Leyva Madrigal, Herian & Bojorquez, Eden & Bojorquez, Juan & Reyes-Salazar, Alfredo & Mollaioli, Fabrizio & Payán, Omar & Palemón, Leonardo & Barraza, Manuel. (2024). Response transformation factors and hysteretic energy distribution of reinforced concrete braced frames. STRUCTURAL ENGINEERING AND MECHANICS. 90. 313-323. 10.12989/sem.2024.90.3.313.

5. Gao, Qinhao & Monti, Giorgio & Chang, Zhiwang & Li, Zhi & Mollaioli, Fabrizio. (2024). Generation of Uni- and Bi- Directional Spectrum-Compatible Ground Motions Using Particle Swarm Optimization. 10.2139/ssrn.4973759.                                            

6. Angelucci, Giulia & Mollaioli, Fabrizio & Quaranta, G.. (2023). Correlation between energy and displacement demands for infilled reinforced concrete frames. Frontiers in Built Environment. 9. 10.3389/fbuil.2023.1198478.

7. Benavent-Climent, Amadeo & Donaire-Ávila, Jesús & Mollaioli, Fabrizio. (2023). Comparison of Energy-Based, Force-Based and Displacement-Based Seismic Design Approaches for RC Frames in the Context of 2G of Eurocode 8. 10.1007/978-3-031-36562-1_8.               

8. Tropea, Giulio & Angelucci, Giulia & Bernardini, Davide & Quaranta, Giuseppe & Mollaioli, Fabrizio. (2023). New Energy Based Metrics to Evaluate Building Seismic Capacity. 10.1007/978-3-031-36562-1_6.

9. Angelucci, Giulia & Quaranta, G. & Mollaioli, Fabrizio & Kunnath, S.. (2023). Correlation Between Seismic Energy Demand and Damage Potential Under Pulse-Like Ground Motions. 10.1007/978-3-031-36562-1_18.                                                   

10. De Angelis, Michela & Angelucci, Giulia & Quaranta, Giuseppe & Mollaioli, Fabrizio. (2023). PERFORMANCE ASSESSMENT OF PINNED ROCKING CORE WALLS IN STEEL MULTI-STORY BUILDINGS SUBJECTED TO STRONG SEISMIC GROUND MOTIONS. 10.7712/120123.10483.20789.

11. Donaire-Ávila, Jesús & Benavent-Climent, Amadeo & Mollaioli, Fabrizio. (2023). Influence of the constitutive model in the damage distribution of buildings designed with an energy-based method. Frontiers in Built Environment. 9. 10.3389/fbuil.2023.1190923.

12. Bojorquez, Eden & Leyva Madrigal, Herian & Bojorquez, Juan & Reyes-Salazar, Alfredo & Mollaioli, Fabrizio & Barraza, Manuel & Torres, José. (2023). Optimal Acceleration and Energy- Based Record Selection Using Artificial Intelligence Approaches and NP. Journal of Earthquake Engineering. 28. 10.1080/13632469.2023.2220035.

13. Angelucci, Giulia & Quaranta, Giuseppe & Mollaioli, Fabrizio. (2023). OPTIMAL TOPOLOGICAL DESIGN OF STRUCTURES SUBJECTED TO NON-STATIONARY STOCHASTIC EXCITATIONS. 10.7712/120123.10482.20610.

14. De Angelis, Michela & Quaranta, Giuseppe & Angelucci, Giulia & Pampanin, Stefano & Mollaioli, Fabrizio. (2023). OPTIMUM DESIGN OF ROCKING WALL COUPLED WITH BUILDING UNDER STOCHASTIC SEISMIC GROUND MOTION. 10.7712/120123.10384.20711.

15. Tropea, Giulio & Angelucci, Giulia & Quaranta, Giuseppe & Mollaioli, Fabrizio. (2023). Structural Damage Characterization via Energy-Based Limit State Definition. 10.1007/978-3-031-30125-4_39.

16. Olabi, M. Nadir & Caglar, Naci & AlShawa, Omar & Mollaioli, Fabrizio. (2023). Energy Characterization Through OpenSees Nonlinear Simulation of Shear Walls Without Confined Boundary Zones. 10.1007/978-3-031-30125-4_24.

17. Benavent-Climent, A. & Sucuoglu, H & Mollaioli, Fabrizio & Kunnath, S & Jalayer, F & Yamada, S & Erberik, Murat Altug. (2023). Title RECENT ADVANCES AND DEVELOPMENTS IN ENERGY-BASED SEISMIC DESIGN.

18. AlShawa, Omar & Mollaioli, Fabrizio & Liberatore, Laura & Liberatore, Domenico & Sorrentino, Luigi. (2023). Effect of ground-motion sequences on a unreinforced masonry wall restrained by an elasto-plastic tie-rod. Procedia Structural Integrity. 44. 1403-1410. 10.1016/j.prostr.2023.01.180.                                               

19. Angelucci, Giulia & Mollaioli, Fabrizio & Molle, Milena & Paris, Spartaco. (2022). Performance assessment of Timber High-rise Buildings: Structural and Technological Considerations. The Open Construction & Building Technology Journal. 16. 10.2174/18748368-v16-e2206270.

20. Quaranta, Giuseppe & Angelucci, Giulia & Mollaioli, Fabrizio. (2022). Near-fault earthquakes with pulse-like horizontal and vertical seismic ground motion components: Analysis and effects on elastomeric bearings. Soil Dynamics and Earthquake Engineering. 160. 107361. 10.1016/j.soildyn.2022.107361.


Profile Details

https://phd.uniroma1.it/web/FABRIZIO-MOLLAIOLI_nC509_IT.aspx



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