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A platform for research: civil engineering, architecture and urbanism
Experimental and analytical behaviour of steel-timber composite connections
Highlights A composite system comprising steel beam and LVL timber slab is proposed. Load-slip behaviour of steel-LVL composite joints is obtained from push-out tests. Efficiency of screw and bolt dowels in steel-LVL composite joints is studied. Empirical model for load-slip behaviour of steel-LVL composite is proposed.
Abstract The mechanical characteristics of steel-timber composite (STC) connections play an essential role in the safe and economical design of hybrid STC structures and floor systems. Accordingly, this study investigates the load-slip behaviour of lap Laminated Veneer Lumber (LVL) timber-steel plate composite joints. Push-out tests on four different types of STC lap joints connected by coach screws (with and without a reinforcing nail plate), high-strength bolts and a combination of glued and screwed joints are reported, and the load-slip behaviour and failure modes of the connections are characterised. The use of a nail plate is found to be effective in reinforcing the timber and in increasing the stiffness of STC lap joints with coach screws, but they did not produce a significant improvement of their strength. A non-linear regression is carried out and an empirical load-slip formulation for STC lap joints with coach screws and high strength bolted connectors is proposed in analytical form. Furthermore, simple formulae for the strength and stiffness of LVL-steel lap connections with coach screws are proposed.
Experimental and analytical behaviour of steel-timber composite connections
Highlights A composite system comprising steel beam and LVL timber slab is proposed. Load-slip behaviour of steel-LVL composite joints is obtained from push-out tests. Efficiency of screw and bolt dowels in steel-LVL composite joints is studied. Empirical model for load-slip behaviour of steel-LVL composite is proposed.
Abstract The mechanical characteristics of steel-timber composite (STC) connections play an essential role in the safe and economical design of hybrid STC structures and floor systems. Accordingly, this study investigates the load-slip behaviour of lap Laminated Veneer Lumber (LVL) timber-steel plate composite joints. Push-out tests on four different types of STC lap joints connected by coach screws (with and without a reinforcing nail plate), high-strength bolts and a combination of glued and screwed joints are reported, and the load-slip behaviour and failure modes of the connections are characterised. The use of a nail plate is found to be effective in reinforcing the timber and in increasing the stiffness of STC lap joints with coach screws, but they did not produce a significant improvement of their strength. A non-linear regression is carried out and an empirical load-slip formulation for STC lap joints with coach screws and high strength bolted connectors is proposed in analytical form. Furthermore, simple formulae for the strength and stiffness of LVL-steel lap connections with coach screws are proposed.
Experimental and analytical behaviour of steel-timber composite connections
Hassanieh, A. (author) / Valipour, H.R. (author) / Bradford, M.A. (author)
Construction and Building Materials ; 118 ; 63-75
2016-05-03
13 pages
Article (Journal)
Electronic Resource
English
Experimental and analytical behaviour of steel-timber composite connections
| British Library Online Contents | 2016
Experimental and analytical behaviour of steel-timber composite connections
| British Library Online Contents | 2016
Experimental and analytical behaviour of steel-timber composite connections
| British Library Online Contents | 2016
Experimental and analytical behaviour of steel-timber composite connections
| Online Contents | 2016