This paper investigates a seismic retrofit technique named e-CLT, which is part of the solution for integrated seismic and energy rehabilitation of buildings developed in the framework of the research project e-SAFE funded by the European Union's Horizon 2020 research and innovation program. According to this technique, the RC structure is cladded by means of CLT panels equipped with friction dampers, to increase lateral stiffness, strength, and energy dissipation capacity. The effectiveness of the e-CLT system has been proved by a full-scale experimental test. A finite element numerical model of the RC frame with e-CLT system has been developed and calibrated based on the experimental results. Hence, guidelines for the design of seismic strengthening of multi-storey RC framed building structures by e-CLT system have been drawn based on the results of a parametric analysis conducted on a set of RC case study frames representative of a variety of existing buildings not designed for seismic resistance.
Barbagallo, F., Licciardello, E., Marino, E.M., Mazzotti, C., Pozza, L. (2025). Dissipative CLT-Based Seismic Upgrading System for RC-Framed Structures: Experimental Characterization, Numerical Modelling, and Design Guidelines. EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS, 0, 1-22 [10.1002/eqe.4334].
Dissipative CLT-Based Seismic Upgrading System for RC-Framed Structures: Experimental Characterization, Numerical Modelling, and Design Guidelines
Mazzotti C.;Pozza L.
2025
Abstract
This paper investigates a seismic retrofit technique named e-CLT, which is part of the solution for integrated seismic and energy rehabilitation of buildings developed in the framework of the research project e-SAFE funded by the European Union's Horizon 2020 research and innovation program. According to this technique, the RC structure is cladded by means of CLT panels equipped with friction dampers, to increase lateral stiffness, strength, and energy dissipation capacity. The effectiveness of the e-CLT system has been proved by a full-scale experimental test. A finite element numerical model of the RC frame with e-CLT system has been developed and calibrated based on the experimental results. Hence, guidelines for the design of seismic strengthening of multi-storey RC framed building structures by e-CLT system have been drawn based on the results of a parametric analysis conducted on a set of RC case study frames representative of a variety of existing buildings not designed for seismic resistance.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
