Abstract of: Parametric Numerical Study of Timber-Glass Walls
An extensive parametric numerical study was performed after completed experimental campaign of timber-glass hybrid walls (TGW and TGWE). 36 timber-glass models (TG) with different outer dimensions were built and analysed using the commercial code SAP2000. Timber frame was modelled using linear beam elements with hinges in all four corners, an IGU was modelled as composite shell and finally a layer of adhesive was modelled with linear and nonlinear springs, which were distributed circumferentially around the edge of IGU and connected onto a timber frame. Normal and shear stiffness coefficients for linear-elastic springs were calculated, while for nonlinear springs a special series of mechanical tests on polyurethane (PU) adhesive was performed since a lack of data available in addition to the desired amount of information needed for the numerical analysis. Uniaxial tension, compression and shear tests were made to obtain the results in form of the load-displacement curve, which presented a direct input for nonlinear normal and shear springs of the mathematical model. For each compression and tension mechanical test three specimens were prepared and tested up to rupture, while a double-lap shear test was conducted using two specimens giving two results each. PU adhesive specimens of the first series had dimensions of 50 mm x 50 mm and thickness of 5,0 mm. Mechanical tests were repeated for two additional thicknesses of PU adhesive, namely 7,0 mm and 9,0 mm. After completed experimental investigation on PU adhesive joint, together 108 numerical models were analysed in SAP2000 with a goal to capture the basic response of mechanically tested timber-glass walls and to determine the stiffness of TGW with different external dimensions. Having the correct information about the stiffness of the single TG shear wall one can calculate the stiffness of the entire timberglass building built with such walls.
Hybrid & Composite Glass Components
Keywords:Timber-glass walls, hybrid structures, adhesive joint, FEA, springs, linear-elastic, nonlinear
Copyright (c) 2018 Boštjan Ber, Gregor Finžgar, Miroslav Premrov, Andrej Štrukelj
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