Scaling Thin Glass Use to the Architectural World

• Autorzy: Zaccaria Marco , Gillon Xavier
• Języki publikacji: EN

Słowa kluczowe

PL

architektura; cienkie szkło; szkło Falcon glassTM; badania mechaniczne

• Wydawca: Grupa Wydawnicza Euro-Media
• Czasopismo: Świat Szkła
• Rocznik: 2019
• Tom: R. 24, nr 10
• Strony: 3--5
• Opis fizyczny: Bibliogr. 16 poz., il., tab.

Twórcy

autor

Zaccaria Marco

• AGC Glass Europe - Technovation Center, Gosselies, Belgium

autor

Gillon Xavier

• AGC Glass Europe - Technovation Center, Gosselies, Belgium

Bibliografia

• [1] R. F. Bartholomew and H. M. Garfinkei, "Chemical strengthening of glass", Glass Science and Technology, D.R. Uhlmann and N.J. Kreidl Vol. 5 New York.
• [2] A. K. Varshneya, "Chemical Strengthening of Glass: Lesson Learned and Yet To Be Learned", International Journal of Applied Glass Science, vol. 1, no. 2, pp. 131-142, 2010.
• [3] M. Overend, C. Butchart, J. O'Callaghan and M. Prassas, "Glass reinforced glass", Glass Performance Days, 2013.
• [4] H. Lambert and J. O'Callaghan, "Ultra-thin High Strength Glass Research and Potential Applications". Glass Performance Days. pp. 95-99, 2013.
• [5] J. Neugebauer, "A movable canopy", International Conference on Building Envelope Design and Technology. Advanced Building Skins, pp. 318-325, 2015.
• [6] R. Ribeiro Silveira, C. Louter and T. Klein, "Flexible transparency - A study on Adaptive Thin Glass Facade Panels", Challenging Glass Conference, vol. 6, pp. 135-148, 2018.
• [7] M. Akilo, "Design and analysis of a composite panel with ultra-thin glass faces and a 3D-printed polymeric core", Msc thesis, Univetsity of Bologna, 2018.
• [8] M. Guidi, "Thin Glass Cold Bent Sandwich Panel", MSc Thesis, TU Delft, 2019.
• [9] K. Datsiou and M. Overend, "The strength of aged glass", Glass Structures and Engineering, 2017.
• [10] A. K. Varshneya, "The physics of chemical strengthening of glass: Room for a new view", Journal of Non-Crystalline Solids, vol. 356, pp. 2289-2294, 2010.
• [11] A. J. Burggraaf and J. Cornelissen, "The strengthening of glass by ion-exchange. Part I. Stress formation by ion diffusion in alkali aluminosilkicate glass", Physics and Chemistry of Glasses, vol. 5, no. 5, pp. 123-129, 1964.
• [12] I. Maniatis, G. Nehring and G. Siebert, "Studies on determining the bending strength of thin glass", Structures and Buildings, pp. 393-402, 2014.
• [13] J. Neugebauer, "Determining of Bending Tensile Strength of Thin Glass", Challenging Glass Conference, vol. 5, pp. 419-428, 2016.
• [14] F. Oliveira Santos, C. Louter and J. Ramoa Correia, "Exploring Thin Glass Strength Test Methodologies", Challenging Glass Conference Proceedings, vol. 6, pp. 713 - 724, 2018.
• [15] M. Zaccaria and M. Overend, "Thermal Healing of Realistic Flaws in Glass", Journal ot Material in Civil Engineering, vol. 28, no. 2, 2016.
• [16] K. C. Datsiou and M. Overend, "Artificial ageing of glass with sand abrasion", Construction and Building Marerials, vol. 142, pp 536 - 551, 2017.

Uwagi

Artykuł zamieszczony w anglojęzycznej części czasopisma.

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