Your search keyword '"Enquist, Bertil"' showing total 11 results

1. Experimental Assessment of the Load Distribution in Multi-Dowel Timber Connections

Author

Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Eberhardsteiner, Josef, Serrano, Erik, Dorn, Michael, Enquist, Bertil, Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Eberhardsteiner, Josef, Serrano, Erik, Dorn, Michael, and Enquist, Bertil

Abstract

An integrative, hierarchically organized testing procedure for the quantification of the load distribution in multi-dowel timber connections is presented herein. The use of contactless deformation measurement systems allowed the combination of test data from single dowel and multi-dowel connections, which gave access to the loads acting on each dowel over the full loading history. As a consequence of the anisotropic material behavior of wood, a nonuniform and progressively changing load distribution among the dowels was found.

Published

2016

2. Experimental Assessment of the Load Distribution in Multi-Dowel Timber Connections

Author

Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Eberhardsteiner, Josef, Serrano, Erik, Dorn, Michael, Enquist, Bertil, Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Eberhardsteiner, Josef, Serrano, Erik, Dorn, Michael, and Enquist, Bertil

Abstract

An integrative, hierarchically organized testing procedure for the quantification of the load distribution in multi-dowel timber connections is presented herein. The use of contactless deformation measurement systems allowed the combination of test data from single dowel and multi-dowel connections, which gave access to the loads acting on each dowel over the full loading history. As a consequence of the anisotropic material behavior of wood, a nonuniform and progressively changing load distribution among the dowels was found.

Published

2016

3. Experimental Assessment of the Load Distribution in Multi-Dowel Timber Connections

Author

Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Eberhardsteiner, Josef, Serrano, Erik, Dorn, Michael, Enquist, Bertil, Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Eberhardsteiner, Josef, Serrano, Erik, Dorn, Michael, and Enquist, Bertil

Abstract

An integrative, hierarchically organized testing procedure for the quantification of the load distribution in multi-dowel timber connections is presented herein. The use of contactless deformation measurement systems allowed the combination of test data from single dowel and multi-dowel connections, which gave access to the loads acting on each dowel over the full loading history. As a consequence of the anisotropic material behavior of wood, a nonuniform and progressively changing load distribution among the dowels was found.

Published

2016

4. Experimental Assessment of the Load Distribution in Multi-Dowel Timber Connections

Author

Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Eberhardsteiner, Josef, Serrano, Erik, Dorn, Michael, Enquist, Bertil, Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Eberhardsteiner, Josef, Serrano, Erik, Dorn, Michael, and Enquist, Bertil

Abstract

An integrative, hierarchically organized testing procedure for the quantification of the load distribution in multi-dowel timber connections is presented herein. The use of contactless deformation measurement systems allowed the combination of test data from single dowel and multi-dowel connections, which gave access to the loads acting on each dowel over the full loading history. As a consequence of the anisotropic material behavior of wood, a nonuniform and progressively changing load distribution among the dowels was found.

Published

2016

5. Experimental Assessment of the Load Distribution in Multi-Dowel Timber Connections

Author

Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Eberhardsteiner, Josef, Serrano, Erik, Dorn, Michael, Enquist, Bertil, Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Eberhardsteiner, Josef, Serrano, Erik, Dorn, Michael, and Enquist, Bertil

Abstract

An integrative, hierarchically organized testing procedure for the quantification of the load distribution in multi-dowel timber connections is presented herein. The use of contactless deformation measurement systems allowed the combination of test data from single dowel and multi-dowel connections, which gave access to the loads acting on each dowel over the full loading history. As a consequence of the anisotropic material behavior of wood, a nonuniform and progressively changing load distribution among the dowels was found.

Published

2016

6. Dowel deformations in multi-dowel LVL-connections under moment loading

Author

Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Serrano, Erik, Enquist, Bertil, Dorn, Michael, Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Serrano, Erik, Enquist, Bertil, and Dorn, Michael

Abstract

The aim of the experimental study presented herein is the assessment and quantification of the behavior of individual dowels in multi-dowel connections loaded by a bending moment. For this purpose, double-shear, steel-to-timber connections with nine steel dowels arranged in different patterns and with different dowel diameters were tested in four-point bending. In order to achieve a ductile behavior with up to 7° relative rotation, the connections were partly reinforced with self-tapping screws. The reinforcement did not influence the global load–deformation behavior, neither for dowel diameters of 12 mm nor for 20 mm, as long as cracking was not decisive. The deformation of the individual dowels was studied by means of a non-contact deformation measurement system. Thus, the crushing deformation, that is, the deformation at the steel plate, and the bending deformation of the dowels could be quantified. In the case of 12 mm dowels, the bending deformation was larger than the crushing deformation, while it was smaller in the case of 20 mm dowels. Moreover, dowels loaded parallel to the grain showed larger bending deformations than dowels loaded perpendicular to the grain. This indicates that the loading of the individual dowels in the connection differs depending on their location.

Published

2015

7. Dowel deformations in multi-dowel LVL-connections under moment loading

Author

Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Serrano, Erik, Enquist, Bertil, Dorn, Michael, Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Serrano, Erik, Enquist, Bertil, and Dorn, Michael

Abstract

The aim of the experimental study presented herein is the assessment and quantification of the behavior of individual dowels in multi-dowel connections loaded by a bending moment. For this purpose, double-shear, steel-to-timber connections with nine steel dowels arranged in different patterns and with different dowel diameters were tested in four-point bending. In order to achieve a ductile behavior with up to 7° relative rotation, the connections were partly reinforced with self-tapping screws. The reinforcement did not influence the global load–deformation behavior, neither for dowel diameters of 12 mm nor for 20 mm, as long as cracking was not decisive. The deformation of the individual dowels was studied by means of a non-contact deformation measurement system. Thus, the crushing deformation, that is, the deformation at the steel plate, and the bending deformation of the dowels could be quantified. In the case of 12 mm dowels, the bending deformation was larger than the crushing deformation, while it was smaller in the case of 20 mm dowels. Moreover, dowels loaded parallel to the grain showed larger bending deformations than dowels loaded perpendicular to the grain. This indicates that the loading of the individual dowels in the connection differs depending on their location.

Published

2015

8. Dowel deformations in multi-dowel LVL-connections under moment loading

Author

Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Serrano, Erik, Enquist, Bertil, Dorn, Michael, Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Serrano, Erik, Enquist, Bertil, and Dorn, Michael

Abstract

The aim of the experimental study presented herein is the assessment and quantification of the behavior of individual dowels in multi-dowel connections loaded by a bending moment. For this purpose, double-shear, steel-to-timber connections with nine steel dowels arranged in different patterns and with different dowel diameters were tested in four-point bending. In order to achieve a ductile behavior with up to 7° relative rotation, the connections were partly reinforced with self-tapping screws. The reinforcement did not influence the global load–deformation behavior, neither for dowel diameters of 12 mm nor for 20 mm, as long as cracking was not decisive. The deformation of the individual dowels was studied by means of a non-contact deformation measurement system. Thus, the crushing deformation, that is, the deformation at the steel plate, and the bending deformation of the dowels could be quantified. In the case of 12 mm dowels, the bending deformation was larger than the crushing deformation, while it was smaller in the case of 20 mm dowels. Moreover, dowels loaded parallel to the grain showed larger bending deformations than dowels loaded perpendicular to the grain. This indicates that the loading of the individual dowels in the connection differs depending on their location.

Published

2015

9. Dowel deformations in multi-dowel LVL-connections under moment loading

Author

Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Serrano, Erik, Enquist, Bertil, Dorn, Michael, Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Serrano, Erik, Enquist, Bertil, and Dorn, Michael

Abstract

The aim of the experimental study presented herein is the assessment and quantification of the behavior of individual dowels in multi-dowel connections loaded by a bending moment. For this purpose, double-shear, steel-to-timber connections with nine steel dowels arranged in different patterns and with different dowel diameters were tested in four-point bending. In order to achieve a ductile behavior with up to 7° relative rotation, the connections were partly reinforced with self-tapping screws. The reinforcement did not influence the global load–deformation behavior, neither for dowel diameters of 12 mm nor for 20 mm, as long as cracking was not decisive. The deformation of the individual dowels was studied by means of a non-contact deformation measurement system. Thus, the crushing deformation, that is, the deformation at the steel plate, and the bending deformation of the dowels could be quantified. In the case of 12 mm dowels, the bending deformation was larger than the crushing deformation, while it was smaller in the case of 20 mm dowels. Moreover, dowels loaded parallel to the grain showed larger bending deformations than dowels loaded perpendicular to the grain. This indicates that the loading of the individual dowels in the connection differs depending on their location.

Published

2015

10. Dowel deformations in multi-dowel LVL-connections under moment loading

Author

Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Serrano, Erik, Enquist, Bertil, Dorn, Michael, Bader, Thomas K., Schweigler, Michael, Hochreiner, Georg, Serrano, Erik, Enquist, Bertil, and Dorn, Michael

Abstract

The aim of the experimental study presented herein is the assessment and quantification of the behavior of individual dowels in multi-dowel connections loaded by a bending moment. For this purpose, double-shear, steel-to-timber connections with nine steel dowels arranged in different patterns and with different dowel diameters were tested in four-point bending. In order to achieve a ductile behavior with up to 7° relative rotation, the connections were partly reinforced with self-tapping screws. The reinforcement did not influence the global load–deformation behavior, neither for dowel diameters of 12 mm nor for 20 mm, as long as cracking was not decisive. The deformation of the individual dowels was studied by means of a non-contact deformation measurement system. Thus, the crushing deformation, that is, the deformation at the steel plate, and the bending deformation of the dowels could be quantified. In the case of 12 mm dowels, the bending deformation was larger than the crushing deformation, while it was smaller in the case of 20 mm dowels. Moreover, dowels loaded parallel to the grain showed larger bending deformations than dowels loaded perpendicular to the grain. This indicates that the loading of the individual dowels in the connection differs depending on their location.

Published

2015

11. Experimental investigation on timber-glass composite I-beams

Author

Kozłowski, Marcin, Serrano, Erik, Enquist, Bertil, Kozłowski, Marcin, Serrano, Erik, and Enquist, Bertil

Abstract

Timber-glass composite I-beams were manufactured and tested in bending to failure. The glass web of the I-beam was adhesively bonded to the timber flanges using three different adhesives: Epoxy, Acrylate and Silicone. For the webs two types of 8 mm thick glass were used: annealed float and heat heat-strengthened glass. Before testing the beams with heat-strengthened glass, the residual-stress profile through the thickness of the glass panels was measured using a portable scattered light polariscope SCALP. The results show that the beam stiffness was similar for the acrylate and epoxy-bonded beams, despite the difference in adhesive stiffness. The beams bonded with the silicone adhesive showed approximately 25% lower stiffness. In terms of load bearing capacity, the beams made using heat-strengthened glass were approximately 50% stronger than the beams made using annealed float, for the epoxy and acrylate adhesive. Using the silicone adhesive, the increase was approximately 20%., LBTGC - Load bearing imber glass composites

Published

2014