"RIV/68378297:_____/14:00434143" . "wooden joint; contact analysis; historical construction; finite element analysis"@en . . "Numerical assessment of behavior of a historical Central European wooden joint with dowel subjected to bending"@en . . . "Numerical assessment of behavior of a historical Central European wooden joint with dowel subjected to bending"@en . "2"^^ . . . . . "In the Central Europe there are many historical constructions that contain various historical joints that do not contain any metal connectors. The lack of engineering standards for their design due to their reconstruction calls for detailed analyses of their behaviour. Therefore, the goals of this work were: a) to develop a contact finite element model of the \u201Coblique joint with a dowel; b) to numerically analyse the joint when loaded in 3-point and 4-point bending tests. The FE model was 3D and enabled to study hypothetical scenarios at different geometries, used materials. The FE model assumed orthotropic material properties of wood (Norway spruce) and elastic region of deformation, the contact was flexible-to-flexible and symmetric meaning the all parts of the joints could experience deformation. Results from numerical analyses revealed an influence of the a dowel vertical position in respect to the beam neutral axis on stiffness. The stiffness of the beam with joint increases as the bolt lowers to the tension side of the bending. The joint is very sensitive to geometrical intolerances since the contact oblique faces may substantially change the stress/strain transfer in joined pieces. The analyses also predicted that the lower angle of the oblique faces may increase the stiffness of the joint due to the friction. The lower angle, though, brings technological issues of reconstructions in-situ, so the compromise between length and stiffness must be chosen." . . . . . . "Numerical assessment of behavior of a historical Central European wooden joint with dowel subjected to bending" . "[E4A73D0C78FE]" . "33274" . . "In the Central Europe there are many historical constructions that contain various historical joints that do not contain any metal connectors. The lack of engineering standards for their design due to their reconstruction calls for detailed analyses of their behaviour. Therefore, the goals of this work were: a) to develop a contact finite element model of the \u201Coblique joint with a dowel; b) to numerically analyse the joint when loaded in 3-point and 4-point bending tests. The FE model was 3D and enabled to study hypothetical scenarios at different geometries, used materials. The FE model assumed orthotropic material properties of wood (Norway spruce) and elastic region of deformation, the contact was flexible-to-flexible and symmetric meaning the all parts of the joints could experience deformation. Results from numerical analyses revealed an influence of the a dowel vertical position in respect to the beam neutral axis on stiffness. The stiffness of the beam with joint increases as the bolt lowers to the tension side of the bending. The joint is very sensitive to geometrical intolerances since the contact oblique faces may substantially change the stress/strain transfer in joined pieces. The analyses also predicted that the lower angle of the oblique faces may increase the stiffness of the joint due to the friction. The lower angle, though, brings technological issues of reconstructions in-situ, so the compromise between length and stiffness must be chosen."@en . . "RIV/68378297:_____/14:00434143!RIV15-MK0-68378297" . "Kloiber, Michal" . "4"^^ . . . "Tippner, J." . "Kuneck\u00FD, Ji\u0159\u00ED" . "Sebera, V." . "P(DF12P01OVV004)" . . "Numerical assessment of behavior of a historical Central European wooden joint with dowel subjected to bending" .