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| Azevedo, Nuno Monteiro |
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Christiane, Dr. Kothe
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (9/9 displayed)
- 2024Investigations on the thermo-mechanical behaviour of densified veneer wood for cryogenic applicationscitations
- 2021Mechanical and chemical analysis of structural silicone adhesives with the influence of artificial agingcitations
- 2021Thin glass in façades: Adhesive joints for thin glass composite panels with 3D printed polymer cores
- 2020Thin glass composite panels: Investigation of the adhesive joint between 3D printed polymer core and glass
- 2016Adhesive joints for bonded point fixings in façades and glass structures
- 2015Investigations on the aging resistance of sealing materials for the protection of bonded point fixings.
- 2015Investigating the resistance of sealing materials for the protection of bonded point fixings
- 2010Thermal stability of polymeric interlayer materials
- 2009Thermo Mechanical Behaviour of Polymeric Interlayer Materials
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document
Thin glass composite panels: Investigation of the adhesive joint between 3D printed polymer core and glass
Abstract
Thin glass is the most favoured substrate material for displays and devices. But also, it enables new applications in architecture for example in glass façades. Due to its high strength and small thickness (0.1 - 2 mm) thin glass is very flexible, lightweight and easily bendable. However, thin glass cannot simply replace conventional façade glazing. To avoid too high deformations of the glazing as a result of the high flexibility it has to be stiffened. An appropriate solution is the use of sandwich panels consisting of two thin glass panes with an inner polymer core. In order to maintain the lightweight of these façade elements, 3D-printed polymer structures should be used instead of a solid core. The present study is dedicated to find a suitable adhesive to bond the polymer core to the thin glass. The mechanical and thermomechanical performances of different combinations of typical 3D-printed polymers and transparent adhesives were evaluated. In addition, the influences of temperature and UV aging were investigated as well as the compatibility of the polymers and the adhesives.