Articles

In this week's reprint from the Architect's Newspaper, author Karen Kubey, an urbanist specializing in housing and health questions if the invention of Public Space is "Invented Or Agreed Upon?" Basing her ideas on a book by Mariana Mogilevich, The Invention of Public Space, the article asks if public spaces are a product of negotiation in the city.

Videos

Deciding where a building should go is a complex negotiation of visible and invisible, objective and subjective forces. Architects perform site analysis in order to identify and choreograph all these factors, but which factors do they focus on? This video is a survey (pun intended) of what goes into locating where a building should go on the Earth’s surface. From legal requirements like lot lines and setbacks, to infrastructural concerns like service hookup locations and pedestrian ways, to environmental factors like sunlight and topography, the video goes through how architects and contractors position structures. In addition to reviewing general rules of thumb, the video also includes some important architectural examples like the Casa Malaparte and OMA’s Student Center at IIT to inspire unique ways to approach the subject.

Eladio Dieste, the engineer behind "reinforced ceramic" and double-curved arches marked his spot as one of the most important figures in architecture, not only in his native Uruguay, but in Latin America and beyond. Here, we invite you to take a look at just some of the engineer's work, from his widely-recognized churches like the Church of San Pedro and the Christ the Worker Church in Atlántida- to his factories, silos, and gymnasiums, all of which form an important part of the region's architectural repertoire.

To help us in our mission to bring Dieste's work to our readers, the Audiovisual Media Service of the Faculty of Architecture, Design, and Urbanism at the University of the Republic has shared the following images as well as the Eladio Dieste page in order to provide a space to learn about his works and writings.

Flooding is a significant problem for buildings all around the world, including architectural treasures like the Farnsworth House that have been plagued by the issue time and time again. In particular, one-third of the entire continental U.S. are at risk of flooding this spring, especially the Northern Plains, Upper Midwest, and Deep South. In April of 2019, deadly floods decimated parts of Mozambique, Malawi, Zimbabwe, and Iran as well, resulting in a low estimate of 1,000 deaths while tens of thousands more were displaced. While architecture cannot solve or even fully protect from the most deadly floods, it is possible – and necessary – to take several protective measures that could mitigate damage and consequently save lives.

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The family of products that encompass mass timber –including Cross-Laminated Timber (CLT), Glue-Laminated Timber (Glulam), and Mass Plywood– is increasingly becoming a viable construction alternative for the AEC industry. Timber has been a structural material for thousands of years, but these engineered wood products have broadened the field of options and provided a solid basis for architectural designers to work with, expanding upon their range of materials and finishes.

Have you ever wondered why chess sets can be found in parks and other public spaces and contemplated what their role is within these spaces? Studies have shown that sports and games work to reduce stress and improve the overall mental health of the public. Chess, one of world's most popular games, allows two people from anywhere on the globe to play regardless of language barriers, age, gender, physical ability, or social situation.

Chile is a country used to natural disasters as much as to the reconstruction process. However, the frequency of these cycles has increased over the years. According to the Ministry of Interior (Homeland), 43% of all natural disasters recorded in Chile since 1960 happened between 2014 and 2017. In fact, the government is already involved in several reconstruction processes across the country.

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The climate has changed, and we have been left grappling with the consequences: high temperatures, flooding, drought and much more. As the world shifts (or tries to shift) to ways to mitigate the crisis, the architecture and construction industry finds itself in a particularly important position whose choices can create real impact. Some of these choices can include innovative products that offer real solutions to complex problems, such as the cooling down of temperatures in highly dense cities.

In this week's reprint from Metropolis Magazine, authors Madeline Burke-Vigeland, FAIA, LEED AP, a principal at Gensler, and Benjamin A. Miko, MD, assistant professor of Medicine at Columbia University Medical Center explore how uniform standards applied across the built environment can protect our communities from COVID-19 and future pandemics.

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The automation of architectural design and rendering has been further accelerated by digital production tools. Tools such as 3D printers, assembly robots, and laser cutters, have all but perfected the design and construction process and have proven essential in optimizing resources, improving precision, and increasing control of the process.

In woodworking, the most frequently used digital production tools are milling machines or CNC (computer numerical control) routers. These tools facilitate the rendering of 2D vectoral drawings and 3D models, codifying them into instructions for the machine to follow and execute. Through this process, which starts with digital archives (typically created using design software widely known as AutoCad), milling machines and CNC routers can rapidly and precisely cut wood, producing ready to assemble pieces.

The "Climate Emergency" continues to embody a renewed worldwide focus on tackling climate change. While there is no "one solution" to the multifaceted challenges brought about by this crisis, there is an onus on every citizen, in both a personal and professional capacity, to apply their skills and actions in addressing the profound pressures on the natural world.

For those involved in the design of buildings and cities, be they architects, urbanists, or citizens, there is a deep responsibility to be aware of, and design for, the impact of climate change. With 36% of global energy devoted to buildings and 8% of global emissions caused by cement alone, the architectural community is deeply entwined with the flows of materials, energy, and ideas that relate to climate change, both causes, and solutions.