Experimental testing and analysis of damage-resistant rocking glulam walls with lead extrusion dampers
Articolo
Data di Pubblicazione:
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Experimental testing and analysis of damage-resistant rocking glulam walls with lead extrusion dampers / Wrzesniak, D; Rodgers, Gw; Fragiacomo, Massimo; Chase, Jg. - In: CONSTRUCTION AND BUILDING MATERIALS. - ISSN 0950-0618. - (In corso di stampa). [10.1016/j.conbuildmat.2015.09.011]
Abstract:
When rocking structures are designed, dampers may be required to substitute conventional connections
to provide load resistance and dissipate the rocking motion. This study investigates the applicability of High-Force-to-Volume (HF2V) damping devices in rocking timber structures. HF2V devices present an attractive solution since the device does not suffer stiffness or strength degradation and can be reused after an earthquake. Laboratory tests on loaded and unloaded timber walls using two HF2V devices
per wall were carried out. The applicability of the devices in timber walls was investigated focusing on
damper functioning, the influence of the vertical load on the self-centering behaviour of the dampers,
and possible slip in all connections. The results show that the devices functioned as intended and no significant
damage occurred in the devices or the timber walls. HF2V devices present a feasible solution for rocking timber walls when a damage free structural behaviour is aimed for.
to provide load resistance and dissipate the rocking motion. This study investigates the applicability of High-Force-to-Volume (HF2V) damping devices in rocking timber structures. HF2V devices present an attractive solution since the device does not suffer stiffness or strength degradation and can be reused after an earthquake. Laboratory tests on loaded and unloaded timber walls using two HF2V devices
per wall were carried out. The applicability of the devices in timber walls was investigated focusing on
damper functioning, the influence of the vertical load on the self-centering behaviour of the dampers,
and possible slip in all connections. The results show that the devices functioned as intended and no significant
damage occurred in the devices or the timber walls. HF2V devices present a feasible solution for rocking timber walls when a damage free structural behaviour is aimed for.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Earthquake resistant timber structures; Self-centering; Seismic design
Elenco autori:
Wrzesniak, D; Rodgers, Gw; Fragiacomo, Massimo; Chase, Jg
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