Pomysły na wykorzystanie cienkiego szkła do zastosowań architektonicznych

• Autorzy: Louter Christian
• Języki publikacji: PL

Słowa kluczowe

PL

cienkie szkło; projekt; fasada; panel elewacyjny; usztywnienie; druk 3D

• Wydawca: Grupa Wydawnicza Euro-Media
• Czasopismo: Świat Szkła
• Rocznik: 2019
• Tom: R. 24, nr 12
• Strony: 6--9
• Opis fizyczny: Bibliogr. 18 poz., il.

Twórcy

autor

Louter Christian

• Technische Universitat Dresden, Germany

Bibliografia

• 1. Akilo, M., Design and analysis of a composite panel with ultra-thin glass faces and a 3Dprinted polymeric core. MSc thesis, University of Bologna, 2018.
• 2. Cervio, M., Muciaccia, G., Rosato, G., The Effect of Edge Processing in Thin Glass for Cold Bending Applications. In Challenging Glass Conference Proceedings, volume 6, pages 685-690, Delft, 2018.
• 3. Datsiou, K.C., Design and Performance of Cold Bent Glass. PhD thesis, University of Cambridge, 2017.
• 4. Hundevad, J., Super lightweight glass structures – a study, In Proceedings of the GlassCon Global Conference, pages 314-327, Philadelphia, 2014.
• 5. Lambert, H., O’Callaghan, J., 2013. Ultra-thin High Strength Glass Research and Potential Applications. Proceedings of the Glass Performance Days 2013, pages 95-99, Tampere, 2013
• 6. Mainil, T. (2015). Exploratory investigation on the cold bending of thin glass. MSc thesis, Ghent University, 2015.
• 7. Maniatis, I., Nehring, G., & Siebert, G., Studies on determining the bending strength of thin glass. ICE Publishing. Structures and Buildings, 169, 393-402, 2014.
• 8. Miri, B., Flexible Transparency With Smart Materials: A study on adaptive thin glass facade developed with Shape memory alloy. Master’s thesis, Delft University of Technology, 2018.
• 9. Neeskens, T., Thin glass composites: based on a structural efficiency increasing design strategy. Master’s thesis, Delft University of Technology, 2018.
• 10. Neugebauer, J., A movable canopy. In Proceedings of the International Conference on Building Envelope Design and Technology. Advanced Building Skins, pages 318-325, Graz, 2015.
• 11. Neugebauer, J. Determining of Bending Tensile Strength of Thin Glass. In Challenging Glass Conference Proceedings, volume 5, pages 419-428. Ghent, 2016.
• 12. Neugebauer, J., Wallner-Novak, M., Lehner, T., Wrulich, C., Baumgartner, M., Movable thin glass elements in façades. In Challenging Glass Conference Proceedings, volume 6, pages 195-202, Delft, 2018.
• 13. Oliveira Santos, F., Louter, C., Ramôa Correia, J., Exploring Thin Glass Strength Test Methodologies. In Challenging Glass Conference Proceedings, volume 6, pages 713-724, Delft, 2018.
• 14. Ottens, R., High Strength Thin Glass as Stiff Structural Fabric: A feasibility study of tensioning a thin, rectangular, chemically strengthened, flat glass sheet into a forced anticlastic surface with a stretchable composite connection, that remains capable of transferring the applied tensile load. MSc thesis, Delft University of Technology, 2018.
• 15. Overend, M., Butchart, C., Lambert, H., Prassas, M., The mechanical performance of laminated hybrid-glass units, Composite Structures, Volume 110, Pages 163-173, 2014.
• 16. Ribeiro Silveira, R., Flexible transparency: A study on thin glass adaptive façade panels. Master’s thesis, Delft University of Technology, 2016.
• 17. Ribeiro Silveira, R., Louter, C., Klein, T., Flexible Transparency - A Study on Adaptive Thin Glass Façade Panels. In Challenging Glass Conference Proceedings, volume 6, pages 135-148, Delft, 2018.
• 18. Schneider, J., Thin Glasses - A future envelope? The Future Envelope 9 – Conference on the Building Envelope. pp 54-69, Delft 2015

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).