Transforming Waste into Pixels of Glassfiber-Reinforced Concrete
Nowadays, the concepts of reducing waste and upcycling have experienced a remarkable expansion in various fields of architecture, driven by the need to change the paradigm of consumption habits in both society and industry. This wave not only responds to sustainable approaches but has also demonstrated significant benefits in economic terms. Today, the transformation of various resources, from excavated earth to agro-waste and plastics, is being carried out to create new materials, thus consolidating the efficiency and feasibility of more environmentally friendly practices.
Nowadays, the concepts of reducing waste and upcycling have experienced a remarkable expansion in various fields of architecture, driven by the need to change the paradigm of consumption habits in both society and industry. This wave not only responds to sustainable approaches but has also demonstrated significant benefits in economic terms. Today, the transformation of various resources, from excavated earth to agro-waste and plastics, is being carried out to create new materials, thus consolidating the efficiency and feasibility of more environmentally friendly practices.
Within this context, technology and data have contributed significantly to a better understanding of materials and to exploring new processing methods. In this regard, artificial intelligence has become a valuable ally. In addition, innovations in software have made it possible to maximize the potential of what was previously considered waste. Correspondingly, Rieder has introduced a product innovation named pixel, aimed at minimizing waste in the production of facade elements constructed from glass fiber-reinforced concrete.