Materials & ProductsExclusive Articles, from ArchDaily

Michelangelo's sculptures. The ancient Greek temples. Castle interiors and palaces. The iconic Barcelona Pavilion of Mies van der Rohe. When we approach the history of architecture and sculpture, it is inevitable that we speak of marble. Originating from a chemical reaction in limestone when exposed to high pressures and temperatures for thousands of years, this notable material is a metamorphic rock generally found in regions where volcanic activity has occurred. Its extraction, by itself, is already a spectacle.

Indoor gardens can contribute important benefits to home living, ranging from aesthetic beauty to improved health and productivity. Research has shown that indoor plants help eliminate indoor air pollutants called Volatile Organic Compounds (VOCs) that emanate from adhesives, furnishings, clothing, and solvents, and are known to cause illnesses. They also increase subjective perceptions of concentration and satisfaction, as well as objective measures of productivity. Indoor gardens may even reduce energy use and costs because of the reduced need for air circulation. These benefits complement the obvious aesthetic advantages of a well-designed garden, making the indoor garden an attractive residential feature on several fronts.

A facade must meet steep requirements as both the first skin that protects a building, its interiors, and its materials, and as the first thing a person sees. In addition to weather resistance and durability, its appearance is extremely vital for any architectural project. Prefabricated facade panels provide a clean, precise, and sophisticated finish to buildings and sport high versatility through different patterns and shapes.

Last April, Mayor Bill de Blasio of New York announced plans to introduce a bill that would ban the construction of new all-glass buildings. Part of a larger effort to reduce citywide greenhouse emissions by 30 percent, other initiatives included using clean energy to power city operations, mandatory organics recycling, and reducing single-use plastic and processed meat purchases. The announcement came on the heels of the city council passing the Climate Mobilization Act, a sweeping response to the Paris Climate Agreement that included required green roofs on new constructions and emissions reductions on existing buildings.

Gone are the days when the kitchen was relegated to a service area. Following the traditional system of bourgeois residential tripartition (dividing the house into social, intimate, and service areas), the kitchen was originally designed as an independent and closed space. Today, more and more, projects seek to integrate and relate it to other rooms in the house, facilitating different interactions among its residents. Due to this transformation, the appearance of the kitchen also changed, and traditional ceramic and stone cladding gave way to new materials.

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Solar tiles operate identically to the photovoltaic panels that are already widely used in construction. The primary difference between them lies in their assembly: whereas photovoltaic panels are attached to an existing roof, solar tiles are part of the roof's construction from the start, taking the place of regular tiling.

From playful indoor pools to tranquil exterior fountains to soaring waterfalls and grand lakes of enormous proportions, architecture throughout the centuries has engaged with water in endlessly innovative ways. Sometimes serving aesthetic purposes, but just as often acting as centers of activity or promoting sustainability, water features can take countless different forms and serve multiple different purposes. Below, we synthesize a series of water features espoused by innovative contemporary architectural projects, ranging from single-family residential homes to vast commercial complexes.

It's very common for architects to use more than one program when developing a project. While one software can help us with the conceptual design and image of the project, other programs may work better for the development of technical documents, such as drawings, sections, and details. On the other hand, other software products can help us make a three-dimensional model, and yet others allow us to create renderings. There are also programs used for the postproduction of images, videos, or even to diagram panels and portfolios. The list is long and as a result our computer processors may suffer.

Although with BIM (Building Information Model) programs, this pilgrimage between programs tends to decrease when covering the entire design process, understanding the extensive list of file extensions is not as simple as it seems. In addition, it's not uncommon to find incompatibilities between versions and file types when, for example, the project must be opened on complementary equipment. Next, we review the file extensions most used by architects, focusing mainly on BIM programs.

Human economic activities are naturally dependent on the global ecosystem, and possibilities for economic growth may be limited by the lack of raw materials to supply factory and trade stocks. While for some resources there are still untapped stocks, such as certain metals and minerals, there are others, such as fossil fuels and even water, with serious availability issues in many locations.

When it comes to commercial and industrial buildings that need to stand the test of time, wood is proving it has the necessary resilience and strength, while offering unique advantages over steel and concrete. In retail and office spaces, wood not only offers remarkable durability, but introduces a much-desired aesthetic warmth once absent from such environments. Adding mass timber to these spaces is a kind of modern-day revival of the century-old timber post-and-beam buildings of the past. What’s old becomes new again, but with all the state-of-the-art technologies and sustainable features expected in today’s commercial buildings.

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Humans spend almost 90% of the time indoors; that's approximately 20 hours a day in closed rooms and 9 hours a day in our own bedrooms. The architectural configurations of these spaces are not random - that is, they have been designed or thought of by someone, and are at least slightly "guided" by the conditions of their inhabitants and their surroundings. Some people inhabit spaces specially catered to their needs and tastes, while others adapt and appropriate designs made for someone else, perhaps developed decades before they were born. In either case, their quality of life may be better or worse depending on the decisions that are made. 

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The Advanced Master “Design by Data” program in Computation Design & Robotics for Architecture and Construction was launched in 2016 and is one of the latest programs in innovative professional education at Ecole des Ponts ParisTech. The program was designed to meet the increasing need for the professional sectors of architecture and engineering to combine architectural skills with creative engineering. Design by Data trains professionals to master advanced design tools (coding, algorithmic approach, artificial intelligence) as well as digital manufacturing and design processes (robotics, 3D printing, electronics and mechatronics) and apply them to architectural and construction projects.

There has been a lot of talk about how automation will affect the way we do architecture, and what our role will be when technologies reach our own desks and work tables. In recent years, while we have seen how robotics and advanced technology are gaining ground in construction and manufacturing, new tools are emerging that promise to automate the design process itself. These would allow us to quickly and easily configure living spaces and their dimensions in the initial stages of a project, using simulations and artificial intelligence.

Of the varying aspects of architectural and interior design, lighting is one element that can visually enhance or destroy a space. This influence stems from the wide range of artificial lighting designed for the most widely differing tasks, environments, and purposes, including internal and even external spaces such as facades and landscape projects. Think of two environments with the same dimensions and layout. Suppose that in the first, only one point of light was applied - a general, unspecified point of light in this case - while in the second a light project was performed considering the use of space and valuing certain aspects of the architectural design. Undoubtedly, the second option is a more pleasant space. In the same way, poor lighting design can ruin an environment. But how is it possible to achieve these different results?