GRIDSHELL

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    Bibliography

    Charest, P. et al. (2019) ‘Patchwork Gridshells: Using Modularity to Facilitate Prefabrication and Simplify Construction’, Journal of the International Association for Shell and Spatial Structures, 60(3), pp. 176–188. doi: 10.20898/j.iass.2019.201.025.
    Venuti, F. and Bruno, L. (2018) ‘Influence of in-plane and out-of-plane stiffness on the stability of free-edge gridshells: A parametric analysis’, Thin-Walled Structures, 131, pp. 755–768. doi: 10.1016/j.tws.2018.07.019.
    ‘Calibrated_Modelling_CBO_Compressed.pdf’ (no date).
    ‘Structural design and analysis of elastically bent gridshells.pdf’ (no date).
    Peloux, L. D. (no date) ‘Modeling of bending-torsion couplings in active-bending structures. Application to the design of elastic gridshells.’, p. 415.
    Nicholas, P., Hernández, E. L. and Gengnagel, C. (2013) ‘The Faraday Pavilion: Activating Bending in the Design and Analysis of an Elastic Gridshell’, San Diego, p. 8.
    Moubarak, H., Almegaard, H. and Hertz, K. (no date) ‘Form finding of gridshell structures with bending’, p. 93.
    ‘Timber Roof by Digital Fabrication’ (no date).
    Schmid, F. et al. (2018) ‘Metal and Glass Grid-Shell Design: Flexible Integration of Digital Design and Fabrication Tools’, p. 7.
    Liuti, A., Mazzola, C. and Zanelli, A. (2018) ‘Where design meets construction: a review of bending active structures’, p. 8.
    Molina, J. C. et al. (2020) ‘Gridshell em madeira: aspectos teóricos e construtivos’, Ambiente Construído, 20(1), pp. 277–295. doi: 10.1590/s1678-86212020000100374.
    Lara-Bocanegra, A. J., Roig, A. and Majano-Majano, A. (no date) ‘INNOVATIVE DEVELOPMENTS IN THE DESIGN AND CONSTRUCTION OF A PERMANENT ELASTIC TIMBER GRIDSHELL’, p. 11.
    Mork, J. H. et al. (no date) ‘INTRODUCING THE SEGMENT LATH - A SIMPLIFIED MODULAR TIMBER GRIDSHELL BUILT IN TRONDHEIM NORWAY’, p. 9.
    ‘[DETAIL GREEN] 2013-01.pdf’ (no date).
    Grönquist, P. et al. (2020) ‘Computational analysis of hygromorphic self-shaping wood gridshell structures’, Royal Society Open Science, 7(7), p. 192210. doi: 10.1098/rsos.192210.
    Grande, E., Imbimbo, M. and Tomei, V. (2020) ‘Optimization Strategies for Grid Shells: The Role of Joints’, Journal of Architectural Engineering, 26(1), p. 04019028. doi: 10.1061/(ASCE)AE.1943-5568.0000375.
    D’Amico, B. et al. (2015) ‘Timber gridshells: Numerical simulation, design and construction of a full scale structure’, Structures, 3, pp. 227–235. doi: 10.1016/j.istruc.2015.05.002.
    Pone, S. et al. (2013) ‘Construction and form-finding of a post-formed timber grid-shell’, Structures and Architecture. Edited by P. Cruz, pp. 245–252. doi: 10.1201/b15267-32.
    Bouhaya, L. (2010) Optimisation structurelle des gridshells.
    ‘PARTICLE-SPRING METHOD FOR FORM FINDING GRID SHELL STRUCTURES CONSISTING OF FLEXIBLE MEMBERS’ (2011).
    D’Amico, B. et al. (2015) ‘Optimization of cross-section of actively bent grid shells with strength and geometric compatibility constraints’, Computers & Structures, 154, pp. 163–176. doi: 10.1016/j.compstruc.2015.04.006.
    Pagnacco, T. et al. (2019) ‘A framework for the optimisation of glazed gridshells in the early design stage under structural and energy-based criteria’, IOP Conference Series: Earth and Environmental Science, 296, p. 012057. doi: 10.1088/1755-1315/296/1/012057.
    Lienhard, J., La Magna, R. and Knippers, J. (2014) ‘Form-finding bending-active structures with temporary ultra-elastic contraction elements’, in. MARAS 2014, Ostend, Belgium, pp. 107–115. doi: 10.2495/MAR140091.
    Peloux, L. D. et al. (no date) ‘Formulation of a 4-DoF torsion/bending element for the formfinding of elastic gridshells’, p. 18.
    Naicu, D., Harris, R. and Williams, C. (2014) ‘TIMBER GRIDSHELLS: DESIGN METHODS AND THEIR APPLICATION TO A TEMPORARY PAVILION’, p. 10.
    Paoli, C. (no date) ‘Past and Future of Grid Shell Structures’, p. 63.
    Peloux, L. D. et al. (no date) ‘From shape to shell: a design tool to materialize freeform shapes using gridshell structures’, p. 11.
    Sakai, Y., Ohsaki, M. and Adriaenssens, S. (2020) ‘A 3-dimensional elastic beam model for form-finding of bending-active gridshells’, International Journal of Solids and Structures, 193–194, pp. 328–337. doi: 10.1016/j.ijsolstr.2020.02.034.
    Tayeb, F. (no date) ‘Simulation numérique du comportement mécanique non linéaire de gridshells composés de poutres élancées en matériaux composites et de sections quelconques’, p. 201.
    ‘On application of isogeometric beam elements to modeling of gridshell structures’ (2018) in. Engineering Mechanics 2018, pp. 201–204. doi: 10.21495/91-8-201.
    Liuti, A. and Pugnale, A. (no date) ‘Erection of post-formed gridshells by means of inflatable membrane technology’, p. 10.
    Liuti, A. (2017) ‘The Airshell prototype: a timber gridshell erected through a pneumatic formwork’, p. 11.
    Lefevre, B., Douthe, C. and Baverel, O. (2015) ‘BUCKLING OF ELASTIC GRIDSHELLS’, JOURNAL OF THE INTERNATIONAL ASSOCIATION FOR SHELL AND SPATIAL STRUCTURES, 56(3), p. 20.
    Labonnote, N. et al. (no date) ‘EXPERIMENTAL AND NUMERICAL STUDY OF THE STRUCTURAL PERFORMANCE OF A TIMBER GRIDSHELL’, p. 9.
    Harris, R. and Roynon, J. (no date) ‘The Savill Garden Gridshell Design and Construction’, p. 7.
    Harris, R. et al. (no date) ‘The Use Of Timber Gridshells For Long Span Structures’, p. 6.
    Harding, J. E. et al. (no date) ‘The UWE Research Pavilion 2016’, p. 11.
    Dyvik, S. H. et al. (2016) ‘Modular kinematic timber gridshell; a simple scheme for constructing advanced shapes’, p. 11.
    du Peloux, L. et al. (2016) ‘Construction of a Large Composite Gridshell Structure: A Lightweight Structure Made with Pultruded Glass Fibre Reinforced Polymer Tubes’, Structural Engineering International, 26(2), pp. 160–167. doi: 10.2749/101686616X14555428758885.
    D’Amico, B., Kermani, A. and Zhang, H. (2014) ‘A FORM FINDING METHOD FOR POST FORMED TIMBER GRID SHELL STRUCTURES’. doi: 10.13140/2.1.3949.8888.
    Corio, E. et al. (2017) ‘Conception and parametric design workflow for a timber large-spanned reversible grid shell to shelter the archaeological site of the roman shipwrecks in pisa’, International Journal of Computational Methods and Experimental Measurements, 5(4), pp. 551–561. doi: 10.2495/CMEM-V5-N4-551-561.
    Collins, M. and Cosgrove, T. (2016) ‘Considerations for the Design of Bending Active Timber Gridshells’, p. 7.
    Collins, M. and Cosgrove, T. (no date) ‘A Review of the State of the Art of Timber Gridshell Design and Construction’, p. 7.
    Colabella, S. et al. (2015) ‘A monitoring system for wooden post-formed gridshells’, p. 13.
    Cattanach, A. et al. (no date) ‘WAITOMO CAVES VISITOR CENTRE’, 18(3), p. 6.
    Adiels, E. et al. (2018) ‘Design, fabrication and assembly of a geodesic gridshell in a student workshop’, p. 8.
    Mesnil, R., Ochsendorf, J. and Douthe, C. (2013) ‘Influence of the pre-stress on the stability of elastic grid shells’, p. 6.
    Williams, N., Bohnenberger, S. and Cherrey, J. (no date) ‘A SYSTEM FOR COLLABORATIVE DESIGN ON TIMBER GRIDSHELLS’, p. 10.
    Li, J.-M., Universität Stuttgart and Institut für Tragkonstruktionen und Konstruktives Entwerfen (2017) Timber Shell Structures Form-finding and structural analysis of actively bent grid shells.
    Dragos-Iulian Naicu (2012) Geometry and Performance of Timber Gridshells.

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