Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Cyclic shear behaviour of masonry triplets with rubber joints
Highlights Characterisation of cyclic shear behaviour of masonry triplets with mortar-rubber joints; Use of ruber joints enhances the flexibility of masonry components providing some auxiliary energy dissipation; The mortar-rubber joints exhibit an equivalent damping ratio of the order 20% or more; Micro-modelling strategy developed in Abaqus provides fair estimates of experimental hysteretic responses of the triplets;
Abstract This paper presents the outcomes of an extensive experimental campaign and of numerical analyses aimed at characterising the cyclic shear behaviour of masonry triplets with mortar-rubber joints under both monotonic and cyclic loading. These joints consist of rubber strips placed between two mortar layers with the aim of enhancing the flexibility of masonry components while providing some auxiliary energy dissipation. The main application of the rubber joints is for enhancing the performance of masonry-infilled reinforced concrete frames under both in-plane and out-of-plane loading, thanks to a reduced interaction between the infill panels and the frame. Although past tests have investigated the behaviour of multi-layer flexible joints, no in-depth study has been carried out to date on the hysteretic and dissipative properties of mortar-rubber joints. In order to fill this gap, a series of experimental tests were conducted at the University of Strathclyde to characterise the mechanical behaviour of the various components of the rubber-masonry triplets as well as the behaviour of the composite system, with particular focus on the cyclic shear response and the bond strength. The hysteretic responses of the triplets obtained from the experiments are simulated using a micro-modelling strategy developed in Abaqus. The study results are useful for informing modelling strategies for the design and analysis of rubber joints, and for the selection of the most suitable mechanical and geometrical properties of these seismic protection devices.
Cyclic shear behaviour of masonry triplets with rubber joints
Highlights Characterisation of cyclic shear behaviour of masonry triplets with mortar-rubber joints; Use of ruber joints enhances the flexibility of masonry components providing some auxiliary energy dissipation; The mortar-rubber joints exhibit an equivalent damping ratio of the order 20% or more; Micro-modelling strategy developed in Abaqus provides fair estimates of experimental hysteretic responses of the triplets;
Abstract This paper presents the outcomes of an extensive experimental campaign and of numerical analyses aimed at characterising the cyclic shear behaviour of masonry triplets with mortar-rubber joints under both monotonic and cyclic loading. These joints consist of rubber strips placed between two mortar layers with the aim of enhancing the flexibility of masonry components while providing some auxiliary energy dissipation. The main application of the rubber joints is for enhancing the performance of masonry-infilled reinforced concrete frames under both in-plane and out-of-plane loading, thanks to a reduced interaction between the infill panels and the frame. Although past tests have investigated the behaviour of multi-layer flexible joints, no in-depth study has been carried out to date on the hysteretic and dissipative properties of mortar-rubber joints. In order to fill this gap, a series of experimental tests were conducted at the University of Strathclyde to characterise the mechanical behaviour of the various components of the rubber-masonry triplets as well as the behaviour of the composite system, with particular focus on the cyclic shear response and the bond strength. The hysteretic responses of the triplets obtained from the experiments are simulated using a micro-modelling strategy developed in Abaqus. The study results are useful for informing modelling strategies for the design and analysis of rubber joints, and for the selection of the most suitable mechanical and geometrical properties of these seismic protection devices.
Cyclic shear behaviour of masonry triplets with rubber joints
Dhir, Prateek Kumar (Autor:in) / Tubaldi, Enrico (Autor:in) / Orfeo, Alessandra (Autor:in) / Ahmadi, Hamid (Autor:in)
02.07.2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Masonry elements with multi-layer bed joints: behaviour under monotonic and static-cyclic shear
| Online Contents | 2015
Masonry elements with multi-layer bed joints: Behaviour under monotonic and static-cyclic shear
| British Library Online Contents | 2015