Tytuł artykułu
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Wydawca
Czasopismo
Rocznik
Tom
Strony
16--21
Opis fizyczny
Bibliogr. 16 poz., il., tab.
Twórcy
autor
- TU Darmstadt, Institute of Structural Mechanics and Design, Glass Competence Center, Darmstadt, Germany
autor
- TU Darmstadt, Institute of Structural Mechanics and Design, Glass Competence Center, Darmstadt, Germany
autor
- TU Darmstadt, Institute of Structural Mechanics and Design, Glass Competence Center, Darmstadt, Germany
autor
- TU Darmstadt, Center for Structural Materials, Glass Competence Center, Darmstadt, Germany
autor
- TU Darmstadt, Center for Structural Materials, Glass Competence Center, Darmstadt, Germany
autor
- TU Darmstadt, Center for Structural Materials, Glass Competence Center, Darmstadt, Germany
Bibliografia
- [1] Bukieda, P., Weller, B.: Impact of Cutting Process Parameters on the Mechanical Quality of Processed Glass Edges. Challenging Glass 8, Vol. 8 (2022). https://doi.org/10.47982/cgc.8.418
- [2] DIN 18008-1: Glass in Building – Design and construction rules – Part 1: Terms and general bases. Beuth, Berlin (2020)
- [3] EN 1288-3: Glass in Building-Determination of the Bending Strength of Glass – Part 3: Test with Specimen Supported at Two Points (Four Point Bending). Beuth, Berlin (2000)
- [4] EN 572-1: Glass in Building – Basic soda-lime silicate glass products – Part 1: Definitions and general physical and mechanical properties. Beuth, Berlin (2016)
- [5] Ensslen, F., Müller-Braun, S.: Kantenfestigkeit von Floatglas in Abhängigkeit von wesentlichen Schneidprozessparametern. ce/papers, 1: 189-202 (2017). https://doi.org/10.1002/cepa.20
- [6] FprCEN/TS 19100-1: Design of glass structures - Part 1: Basis of design and materials. Final draft, Brussels (2021)
- [7] Kleuderlein, J., Ensslen, F., & Schneider, J.: Investigation of edge strength dependent on different types of edge processing. Engineered transparency, 259-268 (2014).
- [8] Lindqvist, M.: Structural glass strength prediction based on edge flaw characterization. PhD-Thesis, École Polytechnique Fédéreale de Lausanne (2013)
- [9] Müller-Braun, S., Seel, M., König, M., Hof, P., Schneider, J., Oechsner, M.: Cut edge of annealed float glass: crack system and possibilities to increase the edge strength by adjusting the cutting process. Glass Struct Eng 5, 3-25 (2020). https://doi.org/10.1007/s40940-019-00108-3
- [10] Müller-Braun S.: Risssystem und Festigkeit der geschnittenen Kante von Floatglas. PhD-Thesis (2022) Darmstadt https://doi.org/10.1007/978-3-658-36791-6
- [11] R: The R Project for Statistical Computing. Software, Version 4.3.0, (2023)
- [12] Schwind, G., Paschke, F., Schneider, J., Seel, M.: Numerische Studien zur Glaskantentemperatur im verschatteten Bereich von Isoliergläsern. Glasbau 2023, Ernst & Sohn. https://doi.org/10.1002/9783433611739.ch18
- [13] Schneider, J., Kuntsche, J., Schula, S., Schneider, F., Wörner, J. D.: Glasbau: Grundlagen, Berechnung, Konstruktion. 2. Auflage, Springer-Verlag (2016).
- [14] TN FKG: Technical Note FKG 02/2019 – Edge strength. Fachverband Konstruktiver Glasbau e.V., Köln (2019)
- [15] Vandebroek, M.: Thermal Fracture of Glass. PhDThesis, Universiteit Gent and Universiteit Antwerpen (2014)
- [16] Wipano FKZ 03TN010F: Kantenfestigkeit- Herstellungs- und Nachweismethodik zur Sicherung der Kantenfestigkeit von Floatglas. Final report TU Darmstadt, WIPANO-Project FKZ 03TN010F, TU Darmstadt (2021)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7c405a1b-fb99-41a7-b27d-07bddc26bc8a
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