The environment we inhabit influences us directly. For kids, this environment must be especially safe and accessible, yet simultaneously stimulating, so that they can move and develop freely without jeopardizing their physical safety. We have already written about how to create playgrounds in interior spaces. Today, we put together a series of examples that use the warmth and versatility of wood to create interactive, creative, and fun interiors for children.
It is difficult to find someone who has never dreamed of building or having a tree house to call their own. The idea of a refuge, a space fully integrated with nature and with a privileged view, pleases almost all ages. There are examples of tree houses of all scales and complexities, from small elevated platforms to highly complex structures, including electrical and hydraulic installations. Some sites specializing in the topic (yes, that exists!), offer valuable tips for building these dreams. In general, they subscribe to the motto: "Choose your tree, make your project, but be ready to adapt it!"
There is a slide I like to show at the beginning of the architecture courses I teach that provides an overview of the last hundred years or so in design and technology. In the left column, a car from the beginning of the 20th Century (a Ford Model T) is poised over a contemporary car (a Tesla). The middle column contains a similar juxtaposition, showing a WWI-era biplane and a modern-day stealth fighter (an F-117A). In the right column, Walter Gropius’s 1926 Bauhaus Dessau building is seen next to an up-to-date urban mixed-use building. The punch line, of course, is that the two buildings—separated by roughly 100 years—look basically the same, whereas the cars and planes separated by the same timespan seem worlds apart. What is the reason for this?
A lightweight material par excellence, zinc is a non-ferrous metal that provides an effective solution for coating buildings exposed to adverse weather conditions, while simultaneously delivering a creative response to the requirements of a project.
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Today, the image of solar power is evolving from an alternative to traditional energy sources to being viewed as a cost-effective solution. Installation of solar-powered lighting does not require the complicated infrastructure, trenching, and wiring expenses necessary for electrical hookups. Long-term maintenance and operational costs are reduced through the use of easy-to-clean panels, electronic components, LED luminaires, and recyclable batteries.
The total amount of water on our planet has, theoretically, stayed the same since earth's formation. It's possible that the glass of water you drank earlier contains particles that once ran down the Ganges River, passed through the digestive system of a dinosaur, or even cooled a nuclear reactor. Of course, before it quenched your thirst, this water evaporated and fell as rain millions of times. Water can be polluted or misused, but never created or destroyed. According to a UNESCO study, it is estimated that the Earth contains about 1386 million cubic kilometers of water. However, 97.5% of this amount is saline water and only 2.5% is fresh water. Of this fresh water, most (68.7%) takes the form of permanent ice and snow in Antarctica, the Arctic, and in mountainous regions. Another 29.9% exists as groundwater. Ultimately, only 0.26% of the total amount of fresh water on Earth is available in lakes, reservoirs, and watersheds, where it is easily accessible for the world's economic and vital needs. With the population steadily increasing, especially in urban areas, several countries have already had severe problems with providing the necessary amount of drinking water to their populations.
How does architecture contribute to the current climate crisis?
Did you know that World Migratory Bird Day is celebrated in the second week of May?
Neon lights are a bold, cosmopolitan statement that can easily revitalize or accentuate an architectural space or structure. With eye-catching brilliance, a plethora of color options, and ties to a retro aesthetic, these lighting pieces can make a space feel simultaneously modern and nostalgic. Yet few understand the scientific workings or material properties of neon, and many architects neglect its use due to its narrow association with commercial signage. Below, we explore how neon works, its architectural history, and how architects can continue to use it today.
Earthquakes, pandemics, conflicts, and environmental disasters are some of the events that have challenged architects, planners, designers, and engineers. The goal is to find ways of creating structures and infrastructure more quickly, easily, efficiently, suiting both the circumstances and the location in which they will be implemented. When searching for materials that meet the requirements for each situation, those considered "alternative" or unusual - at least in the context of emergency shelters - can offer great opportunities for experimentation and applicability for emergency structures. Containers and tensioned fabrics always come to mind when discussing temporary constructions. However, there are other highly available materials with good mechanical properties that can achieve relief purposes.
Concerns about the hygiene, durability, and healthiness of interior spaces have increased considerably in recent years, drawing extreme attention to hospital and health-related projects. Consequently, the choice of materials becomes essential from the conception of each project, guaranteeing that each space performs effectively on all fronts, from resistance and safety to environmental comfort and aesthetics.
In particular, the enclosures in hospitals and health centers must conform to a series of predetermined guidelines and dimensions, which respond to the standardized sizes of different types of equipment and to the needs of each medical procedure. Within the robust framework of the structural walls, the partitions – which are essential for subdividing the space – must be especially resistant to impact, fire, and humidity, in addition to effectively mediating the acoustics between rooms and inside each one of them.
OSB (Oriented Strand Board) can be easily recognized for its distinctive appearance. This material consists of cross-oriented layers of wood strands compressed and bonded together with resin, applied under high pressure and temperature. As a result, the standardized panels have great stiffness, strength, and stability, and are often used as wall cladding attached to the steel frame of a building or as partitions. Also, they have good soundproofing capabilities, since the panels are uniform and have no internal gaps or voids. It is also worth mentioning that OSB can be fully recycled, thereby being considered eco-friendly.
The construction industry is responsible for 75% of the consumption of earth's natural resources. Stone, sand, iron, and many other finite resources are extracted in huge quantities to supply the markets. Additionally, construction sites themselves generate enormous quantities of waste, whether through construction, demolition, or remodeling. In Brazil, for example, construction waste can represent between 50% and 70% of the total mass of municipal solid waste [1]. This waste often ends up in landfills and dumps rather than being properly disposed of, overwhelming municipal sanitation systems and creating informal disposal sites.
Peter Zumthor, in one of his most emblematic works, gives concrete an almost sacred dimension. The work in question is the small Bruder Klaus Field Chapel, located in a small village in Germany, a construction that is both robust and sensitive. Built with white cement, which was mixed with stones and sand from the region, the chapel is composed of 24 layers of concrete that were poured day after day by local labor, and compressed in an unusual way. The building's flat and smooth exterior contrasts with its interior, which was initially made of inclined wooden logs forming a triangular void. To remove these internal forms, the logs were set on fire in a controlled process, reducing them to ash and creating a carbonized interior that varied between black and gray and retained the texture of the negatives of the logs. The result is a masterpiece of architecture, a space for reflection and transformation, in which the same material appears in diametrically opposing ways.
The world of architecture and construction has observed, with increasing attention, technological innovations involving wood. Although it is a material that has been widely used for thousands of years, recent research involving industrial manufacturing and machining technologies has provided even greater quality control and an increased diversity of uses, causing it to be described by many as the material of the future. To this end, common myths including wood's lack of resistance to fire and the implausibility of using it to structure tall buildings have been debunked.
As the number of smaller and more compact apartments grows, architects and interior designers are challenged to create multifunctional solutions and systems capable of optimizing spaces, in a way that every inch seems to make a difference. As a result, it is increasingly common for professionals to focus on designing creative furniture solutions that allow the space to transform completely in a few seconds.
AI in the architecture industry has provoked much debate in recent years - yet it seems like very few of us know exactly what it is or why it has created this storm of emotions. There are professionals researching AI who know more about the field than I do, but I have hands-on experience using AI and algorithms in my design over the past 10 years through various projects. This is one of the challenges that our field faces. How can we make practical use of these new tools?
Dissociating architecture from furniture is almost impossible. As Le Corbusier parking contemporary cars in his project photos suggests, the objects that decorate a domestic space demonstrate the wealth and lifestyle of the user who lives in it. From the moment that humanity ceased to be nomadic, there has existed records of rudimentary furniture. In an excavated site dating from 3,100 to 2,500 BCE, a variety of stone furniture was discovered, from cabinets and beds to stone shelves and seats. Since these early examples, furniture has always been used to express ideas: be it the exclusive and luxurious furniture of Ancient Egypt, meant to demonstrate the power and wealth of the empire, to the functional and simplified designs of the Bauhaus, meant to reconstruct rationality in the world, studying the evolution of furniture design is instrumental to understanding architectural styles.