Educational infrastructure is key to any community. The better the quality of these spaces, the better the learning experience for those who use them. However, these facilities often serve a much broader purpose than just education. In Global South communities, in countries like Peru or Vietnam, where a significant portion of the population lives in rural areas far from urban centers, there are few educational spaces and a lack of places where the entire community—not just the students—can come together.
Every innovation brings with it frictions, disruptions, and, above all, learnings. In the construction industry—a sector historically resistant to change—new construction systems are often met with some skepticism, requiring careful analysis of the challenges that arise. The wood frame system, widely adopted in countries such as the United States, Japan, and Germany, has yet to gain significant popularity in Brazil due to factors that keep the sector labor-intensive and strongly tied to conventional masonry and concrete methods.
However, with the decreasing availability of labor and new demands for efficiency and sustainability, the construction sector has gradually begun to explore innovative alternatives. In this context, the Parkside Carvoeira building in Florianópolis stands out as a landmark of innovation, being the tallest wood frame building in Brazil. Developed in partnership with Desterro Arquitetos, Parkside, and the local construction company Tecverde, this pioneering project adopts the system as a sustainable and efficient solution to meet the needs of contemporary construction in the country.
It is fascinating to delve into the practice of Iván Bravo, firstly because the path taken towards his architectural work immerses us in a vast creative universe through the architect's interest and curiosity in various tangential disciplines directly reflected in his built work. A constant reflection on the methodology of the making, the processes, the pieces, the design, and the materiality converges into a noble and honest architecture.
El Tume House / abarca+palma. Courtesy of abarca+palma
The current demands of the industry lead architects to design based on construction solutions that accelerate processes without compromising quality, while reducing waste and dependence on intensive labor. Among these options, SIP panels stand out as a modular alternative that combines thermal and acoustic insulation with speed and construction precision.
Named after their acronym, SIP panels are self-supporting elements consisting of a rigid foam core sandwiched between two structural claddings, typically OSB boards. Strong yet lightweight, these panels are manufactured under strict factory controls and transported to the construction site, facilitating the rapid assembly of floors, walls, and ceilings, while creating an airtight thermal and acoustic envelope. The thickness of the panel depends on the combined thickness of its components, and its weight typically does not exceed 20 kg per square meter.
