Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Stiffness model for inclined screws in shear-tension mode in timber-to-timber joints
HighlightsA general stiffness model is presented incl. dowel & withdrawal action, and friction.The model is capable of taking dissimilar properties and geometries into account.The model includes flexibility and extensibility of the screw.The behaviour with respect to different parameters versus the inclination is shown.An experimental verification is presented.Comparisons between the present model and other models are discussed.
AbstractA stiffness model for inclined screws in timber joints, or as shear connectors in composite timber-to-timber members, is presented. Elastic conditions applicable to the initial or linearized part of the load-deformation response in the serviceability limit state are assumed. The model for the stiffness or slip modulus is general in nature; it includes both the dowel (or shearing) action and withdrawal action of the screw, the friction between the members and it takes into account possible dissimilar properties and geometries of the different parts of the joint configuration. The model is simplified in the sense that the screw is assumed rigid and the withdrawal stresses along the length of the screw are assumed evenly distributed. However, the effects of flexibility and extensibility of the screw are taken into account by applying a theoretically derived correction factor for the embedment and withdrawal stiffness modulus, respectively. The proposed model is illustrated showing the total stiffness versus the inclination, as well as the relative contributing effect from the shearing and withdrawal stiffness, respectively, and the influence of the friction coefficient. Also, the effect of dissimilar properties and geometries between the two parts of the joint is illustrated. Experimental verification of the proposed model is also given. Comparisons with other stiffness models are also made.
Stiffness model for inclined screws in shear-tension mode in timber-to-timber joints
HighlightsA general stiffness model is presented incl. dowel & withdrawal action, and friction.The model is capable of taking dissimilar properties and geometries into account.The model includes flexibility and extensibility of the screw.The behaviour with respect to different parameters versus the inclination is shown.An experimental verification is presented.Comparisons between the present model and other models are discussed.
AbstractA stiffness model for inclined screws in timber joints, or as shear connectors in composite timber-to-timber members, is presented. Elastic conditions applicable to the initial or linearized part of the load-deformation response in the serviceability limit state are assumed. The model for the stiffness or slip modulus is general in nature; it includes both the dowel (or shearing) action and withdrawal action of the screw, the friction between the members and it takes into account possible dissimilar properties and geometries of the different parts of the joint configuration. The model is simplified in the sense that the screw is assumed rigid and the withdrawal stresses along the length of the screw are assumed evenly distributed. However, the effects of flexibility and extensibility of the screw are taken into account by applying a theoretically derived correction factor for the embedment and withdrawal stiffness modulus, respectively. The proposed model is illustrated showing the total stiffness versus the inclination, as well as the relative contributing effect from the shearing and withdrawal stiffness, respectively, and the influence of the friction coefficient. Also, the effect of dissimilar properties and geometries between the two parts of the joint is illustrated. Experimental verification of the proposed model is also given. Comparisons with other stiffness models are also made.
Stiffness model for inclined screws in shear-tension mode in timber-to-timber joints
Girhammar, Ulf Arne (Autor:in) / Jacquier, Nicolas (Autor:in) / Källsner, Bo (Autor:in)
Engineering Structures ; 136 ; 580-595
10.01.2017
16 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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