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The development of modern construction is aimed at minimizing energy consumption. Optimizing construction processes is an obvious activity that accompanies the design process from the very beginning. This is particularly important in the era of digitization of design tools, as well as the use of curvilinear bionic models in architecture. The ability to rationally adjust the material to the structural needs of the building and strive for its effective use is one of the most important conditions for sustainable architecture. Technical solutions in construction ensuring the use of renewable energy are becoming more and more important in view of the need to respect natural resources. In the context of these changes, the use of natural wood in structures is worth paying attention to. Recently, there has been a dynamic development of wood processing technology, as well as tools for modeling and analyzing wooden structures. The article deals with issues related to the optimal shaping of structural forms of wood, with particular emphasis on architectural and construction cooperation. The aim of the work is to review the current trends in the use of construction timber and the known methods of statistic tensile strength analysis for this material.
Czasopismo
Rocznik
Tom
Strony
68--75
Opis fizyczny
Bibliogr. 18 poz.
Twórcy
autor
- Faculty of Architecture Warsaw University of Technology
Bibliografia
- Abrahamsen R., Malo K., Bjertnæs M., Some structural design issues of the 14-storey timber framed building “Treet” in Norway, “European Journal of Wood and Wood Products”, Vol. 74, 01/05/2016
- Adiels E., Bencini N., Brandt-Olsen C., Fisher A., Näslund I., Kotani R., Poulsen E., Safari P., Williams C.J.K., Design, fabrication and assembly of a geodesic gridshell in a student workshop, “Proceedings of the IASS Symposium 2018”, ed. C. Mueller, S. Adriaenssens, Boston 2018
- Bauer A. M., Längst P., La Magna R., Lienhard J., Piker D., Quinn G., Gengnagel C., Bletzinger K., Exploring Software Approaches for the Design and Simulation of Bending Active Systems, “Proceedings of the IASS Symposium 2018”, ed. C. Mueller, S. Adriaenssens, Boston 2018
- D’Amico B., Kermani A., Zhang H., Pugnale A., Colabella S., Pone S., Timber gridshells: for general networks, “International Journal of Solids and Structures”, 2012, Vol. 49, Issue 26
- D’Amico B., Kermani A., Zhang H., Pugnale A., Colabella S., Pone S., Numerical simulation, design and construction of a full scale structure, “Structures”, 2015, Vol. 3
- Gawell E., Nowak A., Rokicki W., Searching for Bionics Structural Forms Optimization, “IOP Conference Series: Materials Science and Engineering”, 2019, no. 471
- Gawell E., Optimal design of wooden pavilion gridshell structures in the context of architectural and structural collaboration, in: PROJECTIONS: Proceedings of the 26th International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2021), ed. A. Globa, J. van Ameijde, A. Fingrut, Vol. 1, Hong-Kong 2021
- Gawell E., Stefańska A., Idea fabrykacji elementów strukturalnych w kształtowaniu współczesnych pawilonów, „Zeszyty Naukowe Uczelni Vistula”, 2018, no. 61(4)
- Kotwica J., Konstrukcje drewniane w budownictwie tradycyjnym, Warszawa 2011
- Lienhard J., Bending Active Structures. Form - finding strategies using elastic deformation in static and kinematic systems and the structural potentials therein, Stuttgart 2014
- Nabaei S.S., Baverel O., Weinand Y., Form-Finding of lnterlaced Space Structures. in: 11th World Congress on Computational Mechanics, ed. E. Onate, J. Oliver, A. Huerta, Barcelona 2014
- Nabei S., Baverel O., Weinand Y., A hybrid simulation workflow for timber fabric structures, in: Advancing Wood Architecture. A computational approach, ed. A. Menges, T. Schwinn, O.D. Krieg, New York 2016
- Songel J. M., Sustainability lessons from vernacular architecture in Frei Otto’s work: tents and gridshells, “The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences”, Vol. XLIV-M-1-2020
- Schwinn T., Tobias Schwinn in conversation with Holzbau Amann and Müllerblaustein, in: Advancing Wood Architecture. A computational approach, ed. A. Menges, T. Schwinn, O.D. Krieg, New York 2016
- Veenendaal D., Block P., An overview and comparison of structural form finding methods, “International Journal of Solids and Structures”, 2012, Vol. 49, Issue 26
- Wagner H., Flat sheet metal girders with very thin metal web, Part I, General theories and assumption, Washington 1931, p. 200-207
- Wendland D., Model-based form finding processes: Free forms in structural and architectural design, in: E. Torroja: from the philosophy of structures to the art and science of building : international Seminar, Politecnico di Torino, ed. F. Levi, M.A. Chiorino, C.B. Cesari, Milano 2003
- Willmann J., Gramazio F., Kohler M., New paradigms of the automatic: robotic timber construction in architecture, in: Advancing Wood Architecture, ed. A. Menges, T. Schwinn, O.D. Krieg, New York 2017
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1f8cbeeb-853f-4c91-8bc7-8c4d1df603eb