When considering traditional brick facades, we usually conjure up images of solidity and robustness. Solid ceramic blocks, recognized for their ability to withstand compression and offer strength and durability to structures, are materials frequently used in architecture. However, innovation in construction materials has made space for solutions that combine tradition and modernity, transforming the use of materials such as brick. In contemporary construction, the integration of solar control measures has become essential to improve the energy efficiency of buildings, especially in hot climates where the need to mitigate the effects of solar radiation is critical. This is one of the areas in which brick can play a significant role, aided by new technologies.
The main role of architecture is to create structures that protect us from the environment and create spaces that are safe and comfortable for all types of needs and activities. By providing shelter, architecture also shapes the way people interact with their surroundings. Building technologies of the past rarely managed, however, to create a complete separation between us and the outside world.
While impermeability was a desired outcome, the porous building materials available always allowed some water, wind, or outside particles to leak into the interior spaces. In contrast, modern technologies now allow for almost completely impermeable building envelopes, allowing for complete separation between indoors and outdoors, thus relying on engineered systems to regulate temperature, airflow, or humidity. This article explores the differences between these two contrasting approaches, exploring how building facades are equipped to regulate indoor comfort and its environmental impact.
For a long time, the construction industry has followed a linear process - extract raw materials, build structures, demolish them, and then dispose of the garbage in landfills. This approach has serious negative effects on the environment and society and is inherently unsustainable. Reconsidering traditional methods and workflows requires support from all stakeholders and a sense of urgency proclaimed by authorities. In the United States, city organizations have begun to implement new policies to keep construction waste out of landfills and support circular practices. Several cities like Seattle and Pittsburgh, have started implementing deconstruction ordinances that require older buildings to be carefully deconstructed rather than demolished. How might their key provisions influence circular practices in the country?
For decades, our society has predominantly embraced an extractivist approach when formulating models for material manufacturing across diverse industries. While we now know that this model is unsustainable, a major question remains: So, how do we do it? We may be a while away from offering a definitive answer to this challenge. Still, it is exciting to note that, in a context marked by a challenging global and ecological horizon, the architectural community maintains a positive approach by pushing for a re-evaluation of what we make and how we make it.
This momentum may be gaining relevance due to the emergence of new, more environmentally conscious generations, such as Gen Z and Alpha. What is certain is that we are witnessing the development of new production philosophies, such as plant-based materials, which adopt practices aimed at favoring the use of resources derived from plants, reducing dependence on extractive processes, and promoting conscious and sustainable alternatives in various aspects of the manufacture and production of materials in architecture.
https://www.archdaily.com/1014260/harvesting-architecture-a-glimpse-into-3-plant-based-materialsEnrique Tovar
Architecture – once it moved out from under its cavernous beginnings – started off largely nomadic. For a long time, the shade of trees and moveable tents made from animal skin were utilized instead of more permanent dwellings to meet nomadic lifestyles and basic survival needs. These early portable structures were primarily supported by wooden frames and were used by various ancient civilizations, including the Bedouins in the Arabian Peninsula and the Native American tribes in North America. The advent of woven cloth some 40,000 years ago made the dwellings even lighter and easier to transport, a boon to nomadic cultures around the globe.
Though tents have remained popular since then in recreational contexts and as a staple of the architectural form, contemporary architecture has rediscovered the principle of draping fabric and taken its development further – not just for temporary structures, but for permanent buildings and installations, too. Advanced and durable materials have turned fabric into a facade and roof alternative that has sparked a highly specialized sector within the construction industry and created some of the most intriguing exteriors around the globe.
Brooklyn-based firm SO-IL has revealed the design for a new campus art museum at Williams College in Massachusetts, created to become a primary teaching resource for the institution renowned for its art history program. Since its inauguration in 1926, the Williams College Museum of Art has gathered an expansive collection of over 15,000 works. Through the design of SO-IL, the museum will be able to move into its first freestanding purpose-built home. In May 2024, the museum will present an exhibition on SO-IL’s design.
At first glance, Dorte Mandrup's design for the Wadden Sea Center seems to mimic the landscape. Its low height, its horizontal lines and, above all, its materiality make it a modern building in perfect harmony with the local nature. But its connection also encompasses the built heritage of the region, more specifically because of its covering with straw, harvested and dried close to the land. This is an extremely traditional and historic building technique, but which is rarely attributed to contemporary buildings. In this article we will rescue some of the history of this natural material, its constructive characteristics and some examples of use.
UNStudio, in collaboration with local partner HYP Architects, has won the competition for the design of the Kyklos building in Luxembourg. The project is part of Beval, a large-scale redevelopment initiative aiming to transform a former industrial site into an urban center complete with a university and technological center, in addition to residential, office, and retail spaces. When designing the Kyklos building, which will occupy a central position in the district's main square, the architects set out to find solutions to create the smallest carbon footprint for both operational and embedded metrics.
Polyvinyl chloride (PVC) plastic –commonly known as vinyl– is everywhere. In fact, chances are you are sitting close to (or on) something containing PVC in some way, shape or form. It’s used in packaging, automobile parts, children’s toys, clothing, accessories, wires, furniture, medical supplies and hundreds of other everyday items. This year alone, global production exceeded 51 million metric tons, solidifying its rank as the third-most produced plastic in the world. It is particularly in the architecture, engineering and construction industry that the material stands unchallenged, accounting for 60-70% of its total consumption. So much so that it has indisputably become the most used plastic for building materials worldwide, often found in pipes, fittings, flooring, roofing, window profiles and more. It’s not hard to understand why: PVC is durable, highly versatile, cost-effective and easy to maintain. But nothing comes without a cost, they say…
For decades, our society and the development of our built environment have been strongly associated with intensive extractive processes. While these methods were fundamental to the growth of urban areas, they also laid the groundwork for significant challenges that contemporary generations face today. Nowadays, construction debris accumulates on the peripheries of our cities, and plastic waste floats in the oceans.
In this context, and similarly to the idea expressed by Alvar Aalto, who stated that "modern architecture does not imply the use of new materials, but rather employing existing materials more humanely," it is crucial to reconsider how we manage our resources and waste. This shift in direction provides us with new opportunities to address the challenges that the ongoing climate crisis has brought. In response, various actions are now being taken, using materials such as food waste, recycled wood, and plastic debris, among others, exploring innovations in a context where raw materials are becoming increasingly scarce.
https://www.archdaily.com/1013787/casting-furniture-with-upcycled-plastics-and-urban-debris-los-colados-projectEnrique Tovar
Mass timber is an innovative construction solution that is gaining prominence worldwide due to its sustainability and technological benefits. In 2020, the opening of the first Dengo concept store, located in São Paulo, marked the debut of the brand's first interactive factory and the pioneering use of CLT (Cross Laminated Timber) in a high-rise building in Brazil. Developed by architecture firm Matheus Farah and Manoel Maia, the project faced several challenges precisely because of its use of this new technology, which was just beginning to emerge in the construction sector.
The choice of CLT as the project's main building material reflects a commitment to sustainability and to reducing its environmental impact, as it helps mitigate carbon in the atmosphere. In addition, its use allows for cleaner, lighter, and faster construction compared to traditional building methods. However, it is important to keep in mind that mass timber construction requires special care in the handling, storage, and assembly of materials, in order to preserve their integrity and aesthetic details throughout the construction process. Using the right methods is therefore essential to guarantee a high-quality result, which include practices such as not leaving the wood exposed to weather or using wedges to prevent the wood from coming into contact with the ground.
Translucency, at its essence, is an optical property that enables the total or partial passage of light through materials, without providing a clear view of the objects behind them. Despite its apparent simplicity, this property has fascinating applications in the architectural field, generating attractive and powerful proposals that play with light without obstructing views.
Traditionally, glass sheets have been the symbolic material associated with transparency, commonly used in the fabrication of doors and windows. However, technological advances in production and the exploration of innovative materials have significantly expanded the opportunities to take advantage of this property in both interior and exterior applications. These advances challenge preconceived limitations and encourage creativity in the development of novel architectural proposals.
https://www.archdaily.com/1013517/seeing-through-layers-translucent-materials-in-architectureEnrique Tovar
The use and demand for natural materials in architecture and interior design have facilitated the revival of updated traditional construction systems for the contemporary context. What was once considered rustic is now being explored in more modern settings; therefore, the application of the material is also subject to new forms of fixation, coloring, and orientation (horizontal or vertical). While wood is the dominant material in traditional systems and environmentally sustainable materials, another material that has been used for centuries, equally sustainable and biodegradable, and has received less attention is straw.
Double skin façades: Almost a self-explanatory name for façade systems consisting of two layers, usually glass, wherein air flows through the intermediate cavity. This space (which can vary from 20 cm to a few meters) acts as insulation against extreme temperatures, winds, and sound, improving the building's thermal efficiency for both high and low temperatures. Perhaps one of the most famous examples of double-skin facades is Foster+Partners' 30 St Mary Ax Building, "The Gherkin."
The airflow through the intermediate cavity can occur naturally or be mechanically driven, and the two glass layers may include sun protection devices.
As the architecture industry shifts its focus towards greater sustainability and energy efficiency, many modern projects in the world’s hottest (and getting hotter) environments are unearthing more traditional ways to control temperature, light, and ventilation by learning from the past to save us from the future.
Bricks are part of the collective imagination when thinking about construction. These are elementary, ubiquitous, modular, light, and reliable materials for erecting buildings. However, traditional ceramic block manufacturing relies on burning clay in kilns at high temperatures, often powered by non-renewable fossil fuels such as coal or natural gas. Furthermore, the transportation process significantly increases its environmental footprint, as the materials are heavy and bulky. In light of this, there is a growing interest in alternative construction materials that offer a lower environmental impact and greater sustainability. Soil cement bricks –or Compressed Stabilized Earth Blocks– are a good example of an existing alternative, as they have a smaller environmental footprint due to their use of local raw materials and the elimination of the burning process, while maintaining many of the intrinsic qualities of traditional bricks.
On the 3rd of February, this year's Lagos Biennial opened at the Tafawa Balewa Square, Lagos, an emblematic venue that was once the site of Nigerian independence celebrations in 1960. As the 4th edition of the art fair, it continues with its objective of using art to activate historic landmarks that have lost significance either through functional use or symbolic meaning to the residents of the former capital city.
The previous editions of the Biennial have explored various aspects of the city's architecture, its symbolic significance, political implications, sovereignty, ownership, notions of belonging, and its relationship with the public. This year, the theme of "Refuge" at the Tafawa Balewa Square takes this exploration even further. Curators Kathryn Weir and Folakunle Oshun highlight that this theme prompts the square to address the concept of a nation-state. It also brings together artists and architects from different disciplines to explore alternative approaches to constructing renewable communities and promoting climate justice.