We spend 87 percent of our lives in buildings. Buildings constitute the physical substrate for living together, and it is precisely this materiality and materialization of buildings that poses one of the most important ecological and social challenges to society. The question of how people will live together in the future is thus intrinsically linked to the question of the future of building.

Construction has become one of the most materially intense and environmentally detrimental human activities. The per capita consumption of construction materials for load-bearing structures alone, which account for more than half of the materials used in buildings, has multiplied over the last century. Building in the present form, which prioritizes simple construction processes over saving material and resources, no longer seems sustainable. New approaches are urgently needed.

Nature provides just such a paradigmatic alternative: Almost all load-bearing structures in biology are fibrous systems, in which the fiber organization, directionality, and density are finely calibrated with the occurring forces. The resulting high level of morphological differentiation, functionality, and related resource efficiency are emblematic of natural structures. The biomimetic principles of using “less material” by having “more form” have been investigated for many years by the project team at the University of Stuttgart. Fibrous construction offers a profoundly different material approach for building future human habitats.

▼“纤维住宅”在2021年威尼斯建筑双年展展场，Maison Fibre on Biennale Architettura 2021 © ICD/ITKE/IntCDC University of Stuttgart