Grafton Architects was selected as the winning firm to design the Anthony Timberlands Center for Design and Materials Innovation at the University of Arkansas. In collaboration with Modus Studio for the planned campus design research center, the design on the project is scheduled to begin this summer.
Vincent Callebaut Architectures has imagined The Rainbow Tree, a modular mass timber condominium tower in Cebu City, Philippines. Revealing the cultural and natural Filipino heritage, the project, named after an iconic and colorful tree from the Philippines the Rainbow Eucalyptus, was entirely conceived in a way to reduce the carbon footprint of the building.
It may sound like a silly rhyme, but it’s true: wood is good. As a construction material, wood is beautiful, practical, and versatile. The great strength, light weight, and excellent insulating properties of wood make it ideal for many applications, especially at a time when timber is delivering efficient solutions at different scales. Despite these benefits, wood is highly susceptible to decay, especially when used outdoors.
In this short video, Jens Thomas Arnfred and Søren Nielsen from the Danish office Vandkunsten Architects talk about wood and the many reasons why it makes for such excellent building material. The two architects discuss the sustainability advantages of using timber and reflect on its influence on our senses and mind, on our feeling of wellbeing.
Is wood the future of construction?
The history etched into Spain's wooden houses has many lessons to teach us about the role of wood in creating everything from light-weight and mobile modular homes to interior and exterior finishes. What's more, these lessons are not limited to new constructions. They apply to everything from furniture to remodels.
The global climate crisis is not only forcing us to rethink architectural design and the way we live, but also the materials and products that shape our built environment, starting from its origins and manufacture. Toward this end, wood has become an efficient alternative to steel and concrete – materials with high levels of embodied energy – and has led to some important architectural innovations that may culminate in its more widespread use worldwide.
Inspired by the efficiency of nature, Strong By Form has developed Woodflow, a technology that generates wood panels of high structural performance, "combining the optimization of their shape, the orientation of their fibers in relation to the direction of stressors, and the variation in their density for better compression or traction," as explained by its creators. In addition, all of their products are developed in a controlled process through parametric software, integrated into BIM platforms and CNC manufacturing systems.
We talked with Jorge Christie, CTO of Strong By Form, to learn more about this new technology.
Occupying a substantial chunk of South America's central western landmass, Peru is a treasure trove of both landscapes and natural resources. Within its three regions--coastal, mountain, and rain forest--there is little variation in summer and winter temperatures and, except for its high mountain areas, its climate stays between tropical and subtropical. Thanks to the lack of weather extremes, outdoor activities--and the spaces in which to do them--are a principal factor in designing homes and other buildings. Pergolas and other semi-coverings make it possible to create or expand shaded areas, allowing you to enjoy the outdoors in the comfort of your home.
Every working day presents new challenges for architects, fabricators and distributors. The key to success in the building industries is the optimum and timely implementation of projects and the satisfaction of clients and customers. Versatile, easy to work with materials like wood can streamline the process without sacrificing design or options. Wood, in addition to being a structural material, can also be utilized in the form of wooden composite boards and wood-based products. EGGER is a company with a history of producing multiple different types of wood products with unique purposes and applications within a design.
The history of timber construction stretches back as far as the Neolithic period, or potentially even earlier, when humans first began using wood to build shelters from the elements. The appearance of the first polished stone tools, such as knives and axes, then made wood handling more efficient and precise, increasing the thickness of wood sections and their resistance. Over the decades, the rustic appearance of these early constructions became increasingly orthogonal and clean, as a result of standardization, mass production, and the emergence of new styles and aesthetics.
Today we are experiencing another seminal moment within the evolution of timber. Nourished and strengthened by technological advances, new prefabrication systems, and a series of processes that increase its sustainability, safety, and efficiency, timber structures are popping up in the skylines of cities and in turn, is reconnecting our interior spaces with nature through the warmth, texture, and beauty of wood. Where will this path lead us? Below, we review 7 trends that suggest this progress is only set to continue, increasing both the capabilities and height of timber buildings in the years to come.
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.
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