NEERO-Fasade - nowa koncepcja projektowania elewacji z wykorzystaniem lekkich, cienkich paneli kompozytowych ze szkła i tworzywa sztucznego

• Autorzy: Hänig Julian , Weller Bernhard , Böke Jens
• Języki publikacji: PL

Słowa kluczowe

PL

NEERO-Fasade; projektowanie; elewacja; panel kompozytowy; szkło; tworzywo sztuczne; mocowanie; konstrukcja nośna

• Wydawca: Grupa Wydawnicza Euro-Media
• Czasopismo: Świat Szkła
• Rocznik: 2024
• Tom: R. 29, nr 3
• Strony: 22--27
• Opis fizyczny: Bibliogr. 19 poz., il.

Twórcy

autor

Hänig Julian

autor

Weller Bernhard

autor

Böke Jens

Bibliografia

• [1] H. Poirazis, “Double Skin Façades for Office Buildings”. Lund Institute of Technology, Lund, Literature Review Report EBD-R--04/3, 2004.
• [2] A. Ghaffarianhoseini, A. Ghaffarianhoseini, U. Berardi, J. Tookey, D. H. W. Li, and S. Kariminia, “Exploring the advantages and challenges of doubleskin façades (DSFs)”, Renew. Sustain. Energy Rev., Bd. 60, s. 1052-1065, 2016, doi: 10.1016/j.rser.2016.01.130.
• [3] E. Souza “How Do Double-Skin Façades Work?”. archdaily, 27. März 2023. https//www.archdaily.com/922897/how-do-double-skin-facades-work
• [4] U. Hestermann u. a., Baukonstruktionslehre. 1. Wiesbaden: Springer Vieweg, 2015.
• [5] R. Neeb “EP 3 208 085 A1 Verbundscheibe”, EP 3 208 085 A1, 2017 [Online]. Verfügbar unter: https://register.dpma.de/DPMAregister/pat/PatAkteneinsicht?akz=1020160013818
• [6] J. Hänig and B. Weller, “Load-bearing behaviour of innovative lightweight glass-plastic-composite panels”. Glass Struct. Eng., Bd. 5, Nr. 1, s. 83-97, 2020, doi: 10.1007/s40940-019-00106-5.
• [7] J. Hänig and B. Weller, “lntegrated connections for glass-plastic-composite panels: an experimental study under tensile loading at +23, +40 and +60°C and different glass build-ups”, Glass Struct. Eng., Bd. 7, Nr. 2022, 2022, doi: 10.1007/s40940-022-00174-0.
• [8] J. Hänig, “Development of Thin Glass-Plastic-Composite Panels for the Building lndustry”. Dissertation, Technische Universität Dresden, 2023.
• [9] EN ISO 12543-2, “Glass in building - Laminated glass and laminated safety glass - Part 2: Laminated safety glass”, European Standard, 2021.
• [10] 3M Germany GmbH, “3MTM Safety S70 Exterior Window Film Product Data Sheet”. 2018.
• [11] V. Puttakhun, J. Hänig, S. Natchai, and P.-R. Denz, “Visions of adhesive bonding - bonding techniques in facade applications”, in Klebtechnik im Glasbau, Berlin: Ernst&Sohn, 2021, s.193-212.
• [12] EN 12600 “Glass in building - Pendulum tests - Impact test method and classification for flat glass”. European Standard, 2002.
• [13] E. D'Ettore, J. Hänig, und B. Weller, “Development of Novel Connection Joints for Glass-Plastic-Composite Panels”, in Engineered Transparency 2021, 2021, s. 237-250.
• [14] A. Abdirisack Musa, “Development of Façade Connections for Glass-Plastic-Composite Panels”. Master's Thesis, Technische Universität Dresden, 2020.
• [15] M. Wittmann, “Development and Testing of Integrated Glass Fixings and Connections for Novel Glass-Plastic Composite Panels”, Diploma Thesis, Technische Universität Dresden, 2021.
• [16] 3M Germany GmbH, “3MTM Scotch-WeldTM DP610 Product Data Sheet”. 2022.
• [17] F. Oikonomopoulou, T. Bristogianni, M. van der Velden, and K. Ikonomidis, “The adhesively-bonded glass brick system of the Qaammat Pavilion in Greenland: From research to realization”, Archit. Struct. Constr., Bd. 2, Nr. 1, s. 39-62, 2022, doi: 10.1007/s44150-022-00031-2
• [18] C. Kothe, M. Kothe, J. Wünsch, and B. Weller, “Adhesive joints for bonded point fixings in façades and glass structures”, in Engineered Transparency 2016, 2016, s. 555-565.
• [19] DIN 18008-1 “Glass in Building - Design and construction rules - Part 1: Terms and general bases”. Beuth Verlag GmbH, German Standard, 2020.