Many ancient Egyptian, Greek and Islamic religious buildings share a common feature known as hypostyle. Defined as rows of columns that support a roof, this solution has developed in different cultures in different periods of time, which can explain the variety of materials, shapes, sizes and distances between the columns that can be found around the world. Famous examples of the use of this concept are Great Hypostyle Hall (c. 1290–1224 BC), part of the Karnak Temple Complex and one of the most visited monuments of Ancient Egypt, and the Wooden Hypostyle Mosques of Medieval Anatolia (c. 13th and mid-14th centuries), World Heritage Site located in present-day Turkey.
In contemporary architecture, it is possible to see different kinds of examples of how this concept is revived. While some projects use the concept to refer to vernacular architectures that correspond to the same program and use as the proposed building, as is the case with some mosques, others rely on the abstraction of the term through an interpretation that highlights the pillars and their organization in the proposition of the space. In all of them, however, it is clear that the relationship between the hypostyle inspiration and modular architecture is very close, practically intrinsic.
Japanese design firm Nikken Sekkei has just completed a new building in Dubai’s central financial district, encompassing the “World’s Longest Cantilever,” which floats 100m above ground. Compromising two towers connected by an enclosed horizontal bridge, “One Za’abeel” acts as a new point of entry into the city. Designed to be a symbol of Dubai’s growth and expansion, the project offers easy access to the downtown region. The scheme features restaurants, retail spaces, workspaces, and urban hotel accommodations.
By imagining an alternative reality and rediscovering his cultural background, architect Jae Kyung Kim of JK-AR established his identity as an architect when creating his practice, selected as one of ArchDaily’s New Practices 2023. After studying and working in South Korea and the US, he’d noticed an absence of traditional Asian architecture, which had peaked his interest. He began to thoroughly look at a possibility where the traditional timber buildings of East Asia had still been relevant and continued to evolve.
Exhibition Center of the Administrative Center of Bahia / João Filgueiras Lima (Lelé). Image: Gabriel Fernandes from São Paulo, Brasil, CC BY-SA 2.0 , via Wikimedia Commons
Tie rods are integral in structural engineering, primarily for transmitting traffic loads and alleviating compression forces within a structure. These slender components, resembling cables or metal bars, offer seamless integration into a space, lending themselves to visually appealing designs through repetition. They have applications ranging from furniture design to large-scale urban infrastructure projects, including suspension and cable-stayed bridges.
In many cases, when working on a renovation project within an old building, architects often encounter segmented floor plans, spaces without natural light, and complex layouts that hinder the seamless flow required in modern living. Consequently, architects typically opt for targeted demolition, removing specific walls during renovations. This solution can address several of the problems encountered but demands meticulous planning to ensure the structural integrity of the building. When it comes to scenarios like these, structural reinforcement is one of the most commonly employed methods.
From the pre-Columbian period of the Americas –during which cultures such as the Olmec, Maya, Purepecha, and Mexica (Aztec) thrived– to the modern era where architecture has been influenced by social movements and even natural disasters, Mexican architecture showcases a valuable architectural expression, with its own unique voice and distinctive characteristics. Nobel Literature Laureate Octavio Paz argued that architecture is an incorruptible witness to history. Likewise, the materials used to shape it have acted as protagonists of that history, enduring in many cases over time and evolving thanks to the generations of architects who have contributed to it, from different perspectives.
To trace a timeline, it is possible to take as a starting point pre-Hispanic architecture, which exhibited a diversity of nuances due to Mexico's vast territorial extension. This allowed diverse cultures to find their niche and develop their characteristic architectural styles. Subsequently, the era of Spanish colonization, which itself drew influence from Islamic architecture, represented a noteworthy turning point in architectural development. This phase endured until the advent of Mexican Independence in the 19th century. In turn, this marked the initiation of social and cultural movements, both during and after the Mexican Revolution in the early 20th century.
https://www.archdaily.com/1005554/materials-that-define-the-contemporary-mexican-architectural-aestheticEnrique Tovar
Housing is one of the primary aspects of the architecture profession. There are many ways to explore it, from a subordinate program such as a religious cloister to the splendor of a single-family home. Luis Fernández-Galiano is torn between the "waste" of a low-density area in this type of housing and its seductive formal charm. He reminds us that high-density collective housing, such as apartments, makes more sense in an urban context.
"Biodomes" in the mountains of the United Arab Emirates seek to promote ecotourism. Courtesy of Baharash Architecture
Buckminster Fuller's obsession with geodesic shapes placed them in architectural history. The spherical appearance and the complex structural framework gained different appropriations and scales over the years, one of the most iconic works being the Montreal Biosphere, the US pavilion for the 1967 World Expo, designed by him. These structures emerged from his interests in material efficiency, structural integrity and modularity. Back in the 60s, he understood these features as essential for a sustainable and easily replicable intervention
There are several constructive technologies to configure the structural system of a building. From the 1960s onwards, the adoption of techniques that enabled the interaction between different materials became increasingly common, diversifying the design language and seeking the main advantages each element has to face certain situations. Over the years, some mix concrete, wood, stones or steel.
When organizing the elements, materials and colors of an architectural layout, architects can successfully guide users through a room and its different spaces, therefore creating an easy and seamless trajectory for those inhabiting it. By exploring innovative strategies to create new ways of arranging a space, architecture can use color to boost certain aspects of a project’s scheme. The use of color in architectural design combines different factors beyond aesthetic preferences by also affecting the user’s emotions and behavior. Before launching into the color selection, the design process entails certain decision making, such as which architectural elements to highlight, if there is a zonification or division of spaces within the use of colors, the creation of focal points, and the consideration of how each color is associated with a determined mood.
With a breakdown of five architecture projects, the following article analyzes how color is applied as a design strategy to define spaces through three categories: structure, elements and objects, and definition of spaces.
'Color in certain places has the great value of making the outlines and structural planes seem more energetic' - Antoni Gaudí
St. Marks Square (Piazza San Marco) during flood (acqua alta). Image via Shutterstock | Ihor Serdyukov
The Italian city installed glass barriers around the 900-year-old church to keep the waters out. The decision was made after near-record flooding in December 2022, preventing a repeat of the November 2019 near-catastrophe that aged parts of the building “20 years in a day,” according to Basilica’s Procuratoria governing body. The temporary structure is fixed until the MOSE system fully works by the end of 2025, protecting the city of Venice, Italy, and the Venetian Lagoon from flooding.
BUGA Pavilhão de Fibra / ICD/ITKE Universidade de Stuttgart. Image Cortesia de ICD/ITKE University of Stuttgart
Let us return to the first architecture class on structures and the classification of structural efforts. In most structures, whether natural or man-made, compression forces are the primary actors. These are efforts undertaken with equal and opposing loads, applied in the interior of the structure, which tend towards the shortening of the piece in one direction - or compressing it, as the name indicates. It is not difficult to find examples of this: for example, a stone wall or a wooden log can resist the weight of a covering through internal compression efforts that are inherent to each material. Tension efforts, on the other hand, tend to lengthen components in the direction of the applied force of action. Steel, for example, is a material with good tensile strength. It is used in reinforced concrete precisely in the parts where the piece is in traction. But it is also possible for a structure to only have tensile parts, as is the case of membrane, tensioned, or tension structures, which consist of surfaces pulled by the action of cables or ropes in which the masts absorb compression efforts.
One of the first elements used by humans to build shelters, wood is a versatile material that, along with technological advances, remains a protagonist in the construction industry, being used in different ways and moments in a work.
Architecture, to materialize as a constructed and functional building, requires the collaboration of a series of disciplines. During the design stages, these complementary areas are added to the architectural design, attaching systems that help in the construction's functionality, known as complementary projects.
Recent years have seen an increased acknowledgement of the collective endeavour that is architecture and a better valuing of the different professions that participate in the design process. Within every extraordinary building, structural engineering plays an essential role in delivering the architectural vision. The article highlights the past and present contributions of engineering to the built environment, personalities that have stood in the shadow of architects delivering their design intent, and the collaboration between engineers and architects today.
Many architects tend to prefer using materials and architectural elements in their natural or raw state. It is common to remove ceilings and finishings, especially in renovation projects, to expose a building's structure. This process of reclaiming the natural materials of construction - without incorporating elements to cover the framework, pipes, tubes, and cables - transforms these spaces into places that have nothing to hide.
Stone Tower Research Project. Image Courtesy of Groupwork
Groupwork, in collaboration with Jackson Coles, Eight Associates, Webb Yates, The Stonemasonry Company and Polycor, is investigating the possibilities to build large commercial buildings in stone, through the Stone Tower Research project and The New Stone Age exhibition.
Emaar Development is hosting an International Open Design competition for the Design of The Landmark at the heart of the ambitious new world-class mixed-use waterfront development Dubai Creek Harbour. The Development is a 5.6 Million sqm site and is expected to have 48,500 residential units with a population of 175,000 residents, when completed.
