Automatic Design of Cable-Tensioned Glass Shells
We propose an optimization algorithm for the design of post-tensioned architectural shell structures, composed of triangular glass panels, in which glass has a load-bearing function. Due to its brittle nature, glass can fail when it is subject to tensile forces. Hence, we enrich the structure with a cable net, which is specifically designed to post-tension the shell, relieving the underlying glass structure from tension. We automatically derive an optimized cable layout, together with the appropriate pre-load of each cable. The method is driven by a physically-based static analysis of the shell subject to its service load. We assess our approach by applying non-linear FEM analysis to several real scale application scenarios. Such a method of cable tensioning produces glass shells that are optimized from the material usage viewpoint since they exploit the high compression strength of glass. As a result, they are lightweight and robust. Both aesthetic and static qualities are improved with respect to grid shell competitors.
DOI: 10.1111/cgf.13801
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@Article\{LMFCP19, author = "Laccone, Francesco and Malomo, Luigi and Froli, Maurizio and Cignoni, Paolo and Pietroni, Nico", title = "Automatic Design of Cable-Tensioned Glass Shells", journal = "Computer Graphics Forum", number = "1", volume = "39", pages = "260--273", month = "Jul", year = "2019", url = "http://vcg-legacy.isti.cnr.it/Publications/2019/LMFCP19" }