Picture this. You're in a restaurant and you can hear the conversation of the person in the table next to you better than the person you're sitting with. Then, everyone begins to speak louder, making the environment chaotic. Absorption, reflection, reverberation, frequency, decibels, etc. Although acoustics is a complex science that can render buildings almost uninhabitable when not properly thought out, architects do not always possess the theoretical resources nor have the necessary concern to develop acoustically comfortable spaces.
European children spend approximately 200 days a year at primary school. Even though the academic year in most parts of the world is not as long as in Europe, the place where children and adolescents spend the most time, following their own homes, is usually in educational institutions. These can be places for learning, playing and socializing, and as sad as it may be, they can also be safer places for children living in environments of abandonment, hunger, and violence, providing them with opportunities and even meals. A United Kingdom-wide survey found that the differences in physical characteristics of classrooms accounted for 16% of the variations in learning progress over the course of a year. In other words, the better a classroom is designed, the better children perform academically. According to the study, the factors that most affect children are sunlight, indoor air quality, acoustic environment, temperature, the design of the classroom itself and the stimulation within it.
Ever since Manchester University first isolated Graphene in 2004, it has been widely referred to by its properties as a promising material through diverse research that focuses on reaching a range of uses in the most varied industries. Graphene is known to be one of the strongest materials known to science due to its composition of a single carbon atomic layer in a hexagonal mesh. It is also one of the finest materials known to mankind, 200 times stronger than steel yet 6 times lighter. Plus, it is an excellent heat and electricity conductor, aside from its interesting light absorption qualities. When combined with other elements, including gases and metals, it can produce different new materials with highly superior properties.
This is all quite recent: less than a year ago, a French family became the first in the world to live in a 3D printed house. Short of 20 years, this seemed like a distant dream, this new technology has developed quickly, and it arises as a possible contribution to the housing crisis around the world.
Thermal comfort becomes very evident when it is not attended to. When thermal conditions are adequate in one location, our body is in balance with the environment allowing us to perform activities normally. On the other hand, when a space is too hot or too cold, we soon see changes in our mood and body. Dissatisfaction with the thermal environment occurs when the heat balance is unstable, that is when there are differences between the heat produced by the body and the heat that the body loses to the environment.
During the modern period, the buildings that used the traditional sloping roofs with tiles, draining the waters as quickly as possible, have begun to give way to the well-known 'waterproof flat roofs.' In spite of delivering a clean aesthetic to the project, allowing the use of the last slab as a space for living and contemplation, this solution can become a headache for its occupants if its execution and design are not careful. It is no accident that there have been infiltrations in famous modern buildings, such as the Vile Savoye or the Farnsworth House, designed by great masters of architecture. Currently, the civil construction industry has developed more sophisticated products and techniques that drastically reduce the chances of subsequent infiltration. However, we could say that waterproof flat slabs continue to be fragile points in buildings. The architects from Brasil Arquitetura have improved an inventive and very simple solution to avoid infiltrations in flat slabs, much used in the 70's by architects like Paulo Mendes da Rocha and Ruy Ohtake, filling them with vegetation.
As ingenious solutions for environments that require additional space and ventilation, articulated or accordion doors and windows operate by folding their leafs one over the other and onto the sides of the opening. They moving via upper and lower rails which can be embedded into masonry and allow separation and integration rooms while adding aesthetic value to the project.
This system generates a similar effect to that of a sliding door or window, but it differs in that all its leafs remain in the same plane when they are closed, giving a clean appearance to the façade.
Glass is so present in our lives that it’s very difficult to think about the amount of work, experimentation and technologies behind each panel or glass object. It’s also impossible to separate innovations from modern architectural projects –from architects such as Mies Van der Rohe and Le Corbusier– from the advances of the glass industry.
We’re following the history of glass, from Mesopotamian artifacts to technological glasses, and we invite you to travel with us.
A technological innovation is revolutionizing one of the oldest professions in the world. Augmented reality has just broken onto the scene and has already been transforming civil construction. The changes are seen not only in designing and modeling, but also in building. Augmented reality benefits the entire construction team: engineers, designers, architects, project managers and service providers.
Unlike virtual reality, which creates a totally new and independent environment of the real world, augmented reality includes virtual elements that interact with what already exists. It is thus possible to combine virtual architectural designs with the reality of the construction site, increasing efficiency and accuracy, reducing the occurrence of errors and saving time, money and resources.
Let's suppose you need a bookcase. Years ago, you would probably search the furniture stores or antique shops in your town. Today you are more likely to open dozens of tabs on your web browser to compare prices and models. But there is another option that is becoming increasingly popular: open source furniture.
It's simple; you download the design of a piece of furniture and send it to a CNC machine (a mill that cuts wood from a digital file). It’s more or less like sending a PDF to print. With the pieces cut, you just assemble it. We used a bookcase for example, but it could be a chair, a table, a cupboard, a bench. Opendesk, one of the current open source furniture platforms, brings together about 30 pieces of furniture available for download. There the user can download a project and cut the furniture in a FabLab or personal workshop, or use the site to connect with a joiner who makes the cuts.
Studies show that public investment in integrated and safe cycling networks promotes urban transformation, providing more humanity, health and quality of life in urban spaces. While cities in the Netherlands and the Nordic countries have already incorporated bicycles into daily life, with a significant portion of the population using the means of transport for daily commutes, much of the world is still seeking a model to reduce congestion and increase its use. According to the Institute for Transportation and Development Policy (ITDP), investing in non-motorized transport allows congestion reduction, improves air quality, physical and mental health of residents, and local trade and brand visibility, once that cyclists tend to pay more attention to local commerce and take up less space than cars.
But along the cycle lanes and cycle paths it is essential to provide suitable places so that bicycles can be parked at the end of the trails. While bike stands are enclosed spaces, usually with some kind of surveillance and additional infrastructure, paracycles are the structures that allow to securely support and lock the bike. They can integrate in the urban furniture of a city, next to benches, plates, lamps and informative totems.
Cardboard tubes are so commonplace that we may no longer even notice them. Yet they are everywhere: in a roll of toilet paper, in the packaging of the college diploma, in fireworks, and in the tissue and paper industries. And now, more and more, they can be found in unusual places, such as on the walls of houses and buildings. The material is part of modern life and is being produced for a multitude of industrial applications and consumer products. The vast majority are used as structural cores in winding operations. Immediately after manufacturing, paper, film or textiles are rolled directly onto cardboard tubes resulting in a stable roll that is easily stored and transported.
There are few things that fascinate us more than the sea. Its contemplation arouses a sense of peace, while its colors, textures, movements and amplitude provide a scientifically proven effect of relaxation in our nervous system. Above all, it makes us realize how small we are in the universe. It is not by chance that a house facing the sea is a dream of consumption for many, let alone with a pool right in front of it. Infinity pools play with this feeling of infinite sea and sky. Through a well-elaborated set of levels and plans, they create an optical illusion that leaves everyone speechless, making pool water appear as if merged with the horizon, overflowing at one or more edges. But before you plan your photo on Instagram with a glass of sparkling wine in your hand, let's take a look at how these pools are built.
This renovation project by Peter Ebner and friends ZT GmbH is about the history of a place and changing tastes and times. It is about not needing a large scale to radically improve the space around. It is about the beauty and character of the city with its reflected sparkling life, gloomy evening sky, raindrops and lights of passing cars. It is about people who are mostly in a hurry, but who still sometimes stop for a few seconds to take note of a special, glittering room.
Perhaps the most renowned 'skylight' ever built is the Pantheon of Rome commissioned by Marco Vipsanius Agrippa during the reign of Emperor Augustus (27 BC-14 AD) and rebuilt by Hadrian (117-118) around 126 AD. At the highest point of its dome (in this case, the oculus) the sunlight shines, casting its beams over the various statues of planetary deities that occupy the niches on the walls. The light that enters the space symbolizes a cosmic, sacred dimension. In projects around the world, natural light continues to fulfill this scenic role, especially in religious projects.
It is characterized as zenithal illumination as that which comes from above, from the sky (zenith). Very useful for large spaces that can not be adequately lit by windows, skylights are a widely used device for providing a pleasant, diffuse light. Generally, care is taken to prevent direct entry of sunlight; the openings must be well designed so that they do not overheat the space of allow water infiltration. Below is a collection of projects that make good use of this technique.
The increasing use of air conditioning is causing many cities to hit record energy consumption levels during brutally hot summer months. In populous countries like India, China, Indonesia, Brazil, and Mexico, large urban centers function like ovens: buildings absorb heat that is re-released back into the environment, further increasing the local temperature. More heat outside means more air conditioning inside, which not only raises energy consumption, but also increases the levels of carbon dioxide in the atmosphere.
With this vicious cycle in mind, a paint was created to protect buildings and urban structures from excessive solar radiation, diminishing the effect of the urban heat island. The innovation came from the partnership of UNStudio, a Dutch architectural firm, and Monopol Color, a Swiss paint specialist. The dark-colored materials that are used to construct the buildings in our cities are one of the main causes of heat accumulation in urban areas. While darker materials absorb up to 95% of the sun’s rays and release them straight back into the atmosphere, this value can be reduced to 25% with a normal white surface. Now, with ‘The Coolest White’, it is possible to reduce absorption and emission to 12%.
When we think of energy from renewable sources, the first that probably come to mind are solar and wind. And decentralizing power generation is something that has inspired engineers and inventors from all over the world.
So what about turning the mechanical energy generated when people walk into electrical energy? It can be done thanks to technology developed by Laurence Kemball-Cook,founder of Pavegen. Using platforms inserted within sidewalks Pavegen converts steps into electric power (while also generating data and even rewards). But before you go out there feeling like Michael Jackson in Billie Jean, you should understand how this system works.
A sturdy featherweight table? Sounds... contrary to reason. But this contradiction was the very impetus for the design. Created for a research center that’s pushing the boundaries of design and manufacturing using technology and science, the designers--AIRLab, in collaboration with DManD-- sought to dematerialise the typical structure of a table, creating a sense of instability with the visual counterpoint of a solid surface.
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