A few months ago, fourteen 5th-year architecture students at the University of Southern California (USC) were given an unusual challenge: select two materials, and two only, to design and construct… a Mao jacket.
The results, exhibited at the university on March 7th, were fourteen fascinating experimentations with unusual materials – including everything from rubber erasers to acrylic paint to 5,500 metal Mao pins (shipped direct from China).
As Lee Olvera, the studio lead, told USC News, “It’s an exploration of program and function. In architecture, we’re called upon to design the skins of buildings all the time. This project infuses our intuitive skills of artistry and aesthetics with the rigor of analytical and performance-based material experimentation to create innovative working solutions.”
Check out more images from this unusual studio project, after the break.
Our friends at Mecanoo have shared a fascinating mini-documentary exploring the complex brickwork on display in their latest project in Boston’s Dudley Square, the Dudley Municipal Center(nearing completion). Called “Boston Bricks with a Dutch Touch,” this documentary features interviews with everyone involved in the project – from construction workers to architects – and focuses on the difficulty of using brick in this elaborate manner. Enjoy the video above and check out some fantastic images after the break.
The following is the first article of Material Substance, a column, penned by Christopher Brenny and presented by AD Materials, which investigates the innovative applications of materials in architecture.
A material is nothing without a process. The characteristics of plastic, for example, vary dramatically depending on where and how the raw material is applied during the forming process. The same material can be used to create a bag, a solid container, or a woven textile. The difference between a disposable water bottle and carpeting is so distinct that one could not make the material connection without some foreknowledge of the manufacturing process of each.
The result of this material ecosystem is a scenario in which design and manufacturing must inform one another. This connection often moves so slowly in the building industry that it is difficult to perceive and very slow to adapt. Shape memory alloys such as nitinol (muscle wire), for example, are gradually moving into public nomenclature. While the novelty of such materials is ripe for exploration, application has proven difficult as the cost of such materials is quite prohibitive. Shape memory alloys, unless they are developed using more abundant metals such as aluminum, will likely remain a niche product developed for very specific applications.
Memory plastics, while less developed and responsive, have significant potential to become a familiar fixture in our daily lives. Combining this technology with the lightweight, structural capabilities of foamed materials, our preconceptions of the portable and flat packed may soon transform from disposable and insubstantial into something much more beautiful and valuable.
Daylight is a highly cost-effective means of reducing the energy for electrical lighting and cooling. But architectural education often reduces the aspect of daylight to eye-catching effects on facades and scarcely discusses its potential effects – not just on cost, but on health, well-being and energy.
This Light Matters will explore the often unexplored aspects of daylight and introduce key strategies for you to better incorporate daylight into design: from optimizing building orientations to choosing interior surface qualities that achieve the right reflectance. These steps can significantly reduce your investment as well as operating costs. And while these strategies will certainly catch the interest of economically orientated clients, you will soon discover that daylight can do so much more.
More Light Matters with daylight, after the break…
ArchDaily continually strives to be the ultimate source of inspiration, knowledge, and tools for architects around the world. Every potential initiative that we conjure up, we launch only if it aligns with our mission.
Which is why we’re so excited to introduce to you a fantastic new resource: ArchDaily Materials.
We know that many of you already browse our site for inspiration for your work – whether at the very beginnings of a project, when the design is still forming in your mind, or later on, as source references for details, facades, materials, etc.
However, once you’ve found the material that inspired you, you’re left to your own devices to procure it (maybe you even settle for something else along the way).
We’re still in the early stages and so will be fleshing out ArchDaily Materials with even more products and materials over the next few months; however, we invite you to explore this inspirational new resource and start integrating it into your everyday practice today. Enjoy!
The ArchDaily Team
A wood-based nanomaterial composed of cellulose nanocrystals and cellulose nanofibrils is being evaluated at the Forest Products Laboratory, in support of a project at the Army Research Laboratory in Aberdeen, Maryland. The material, presumably stronger than Kevlar, is being produced to create clear composites as reinforced glass for clear applications. US Forest Services has opened a $1.7 million pilot plant in Wisconsin to develop the wood-based nanomaterial, whose future applications may include windshield and high performance glass.
Under development for three years, the material has the potential to be the strongest and optically clearest version of celllulose nano-fibrils. Because wood is a renewable resource, the Forest Products Laboratory is optimistic that as the material enters the market, it will help reduce fossil fuel consumption and greenhouse gas emissions, while promoting industry growth in rural areas.