Numerical Analysis of a Hybrid Bending-Active Gridshell
Date
2019Publisher
IASSPlace of publication
BarcelonaSource
60th Anniversary Symposium of the International Association for Shell and Spatial Structures, IASS Symposium 2019 and 9th International Conference on Textile Composites and Inflatable Structures, Structural Membranes 2019, FORM and FORCEVolume
2019Pages
1916-1923Google Scholar check
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Show full item recordAbstract
Elastic gridshells were incepted in the 1960s and popularized by the work of Frei Otto, especially through the famous Mannheim Multihalle in the early 1970s. Since then, a number of researchers have dealt with the systems’ materiality, constructability and applicability, driven by respective advantages in their production, transportation, erection and construction. Adaptive architecture has also triggered the interest of many architects and structural engineers, aiming at an optimized static performance and reconfigurable spatial systems that can adapt to functional or structural requirements. Along these lines, the current paper examines the design and analysis of a hybrid bending-active gridshell that consists of an array of elastic strips interconnected through a secondary system of struts and cable segments. The proposed gridshell has a span of 9.6 m and a length of 10 m. The three-stage development of the gridshell includes the planar deformation of the bending-active members, the erection of the system and its external loading. The analysis examines three different materials for the bending-active members. The numerical investigation of the system is conducted through a progressive form-finding and load-deformation Finite-Element Analysis (FEA). The analysis provides insight to the efficiency of the proposed hybrid bending-active gridshell in terms of deployability, transformability and operability, highlighting the structural and architectural potentials in achieving lightweight, adaptive structures.