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In the European Union, building construction accounts for 40% of materials consumption, 40% of overall energy consumption, and 40% of waste production [1]. It is therefore essential to reduce the environmental impact of these structures. Various levers are available to achieve this, including better use of materials and selection of the most appropriate material for a given application. This study focuses on isostatic beams, a simple application for identifying trends in shapes and materials to reduce their impact. By using a genetic algorithm to optimize the environmental impact of each beam typology (rectangular reinforced concrete, I-beams, or optimized, prestressed, steel and timber beams), and comparing them with one another, it was possible to select the most appropriate for a given scenario (use in a building, a bridge, most favorable and most unfavorable life-cycle analysis scenarios). The study emphasized the fact that beams with a small width perform better environmentally and that the optimized reinforced concrete beams have great potential in reducing the environmental impact, especially for short spans.
Rafael Amorim Leandro De Castro Amoedo
Dario Floreano, Bokeon Kwak, Markéta Pankhurst, Jun Shintake