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Fabio Freddi
Associate Professor
University College London (UCL)
Latest
Advancing Seismic Resilience of Self-Centering Steel MRFs: From Component Testing to Large-Scale Shake Table Testing
Evaluation of the Frame Expansion Effect in Self-Centering Beam-to-Column Subassemblies
Large-Scale Shaking Table Tests of a Self-Centering Seismic-Resilient Steel Moment-Resisting Frame: Preliminary Results
Mass timber wall splice connection using glued-in rods: Design methodology, implementation, and shake-table testing in a six-story building
Self-Centering Steel Structures for Earthquake Resilience: Insights from Component to Large-Scale Shake-Table Testing
Design and Analysis of Large-Scale Tests of a Self-centring Seismic-Resilient Steel MRF
Finite Element Analysis of Self-Centring Beam-to-Column Subassemblies in Seismic-Resilient Steel MRF: Preliminary Evaluation of the Frame Expansion Effects
Flexible joints for seismic-resilient design of masonry-infilled RC frames
Estimating first and higher-mode effects for the design of rocking mass timber walls with controlled overturning moments
Parametric analysis on the seismic response of Self-Centering Dissipative SDoF systems
Shaking table tests of a 3-storey self-centring steel MRF: preliminary analysis and design
Effective placement of self-centering damage-free connections for seismic-resilient steel moment resisting frames
Genetic algorithm for the optimal placement of self-centering damage-free joints in steel MRFs
Ottimizzazione del posizionamento di nodi ricentranti in telai momento resistenti in acciaio tramite un algoritmo genetico = Optimal Placement of Self-Centering Joints in Steel ...
Parametric analysis of steel MRFs with self-centering column bases
Optimised Strategies for Seismic-Resilient Self-Centring Steel Moment Resisting Frames
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