The development of innovative engineered wood products has greatly increased the possibility of using timber as structural material, opening new markets in the construction sectors, such as multi-storey residential and collective (e.g., schools) buildings. The use of timber structures is in fact still confined to low- and mid-rise buildings. The HyWood4Buildings project aims to overcome the existing constraints in the timber construction sector, proposing a novel hybrid structural system for taller timber buildings. This system combines two distinct but interacting components: a modular hybrid steel-timber lateral load resisting (HyST-LaR) system and a solid-sawn wall (SoN-Wall) system. This paper presents the structural characterization of the innovative HyST-LaR system through an experimental campaign at component-level and numerical analysis with a first glance to the development of an analytical model.
Setti, A., Zammattio, G., Benatti, M., Cardillo, E., Gaspari, A., Giongo, I., et al. (2025). A NOVEL HYBRID WOODEN STRUCTURAL SYSTEM FOR MULTI-STOREY BUILDINGS IN SEISMIC PRONE AREAS. World Conference on Timber Engineering (WCTE) [10.52202/080513-0046].
A NOVEL HYBRID WOODEN STRUCTURAL SYSTEM FOR MULTI-STOREY BUILDINGS IN SEISMIC PRONE AREAS
Setti A.;Cardillo E.;Pozza L.;
2025
Abstract
The development of innovative engineered wood products has greatly increased the possibility of using timber as structural material, opening new markets in the construction sectors, such as multi-storey residential and collective (e.g., schools) buildings. The use of timber structures is in fact still confined to low- and mid-rise buildings. The HyWood4Buildings project aims to overcome the existing constraints in the timber construction sector, proposing a novel hybrid structural system for taller timber buildings. This system combines two distinct but interacting components: a modular hybrid steel-timber lateral load resisting (HyST-LaR) system and a solid-sawn wall (SoN-Wall) system. This paper presents the structural characterization of the innovative HyST-LaR system through an experimental campaign at component-level and numerical analysis with a first glance to the development of an analytical model.| File | Dimensione | Formato | |
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