Over the past four years, many of you have asked me when I was going to turn “Native Places” into a book. Well, I’m happy to announce that I’ve finally done just that -- with the help of my publisher, Gordon Goff, of ORO Publications and graphic designer AnLe Banh.
I’ve chosen 64 essays and sketches from four years of posts on NativePlaces.org to include in a full-color book entitled Native Places: Drawing as a Way to See. The release date is September 15th.* I’ll continue to post a new “Native Places” online every other Wednesday and make sure those posts appear in your inboxes that morning. But if you prefer print to digital as much as I do, here’s a version of Native Places that you can hold in your hand.
For more information, please visit nativeplacesthebook.com.
Pre-orders from now through September 15th are available exclusively at Quail Ridge Books.
*Book Signing at Quail Ridge Books September 15
I’m going to celebrate the official release of Native Places: Drawing as a Way to See by presenting an illustrated talk then signing copies of the book on Saturday, September 15, beginning at 4 p.m. in Quail Ridge Books in North Hills, 4209-100 Lassiter Mill Road, Raleigh NC 27609 (919.828.1588). Come by if you can. I’ll be glad to see you
‘Mass to membrane’ continues to influence the future of architecture
August 1st, 2018 / By: Bruce N. Wright / Features
Nicholas “Nic” Goldsmith, FAIA, has been a major player for more than 40 years in the development of fabric architecture in North America and around the globe through his leadership of the innovative architectural/engineering firm FTL Design Engineering Studio, based in New York City. I’ve known Nic for more than 20 of those years, and we recently sat down to discuss his take on how the field is progressing, and what we might expect in the near future.
Bruce Wright: Nic, I know that your new book, Mass to Membrane (available fall 2018 from Oro Editions, ISBN 979-1-940743-89-9), covers what you very clearly and convincingly outline as the historical progression of architecture from heavy, massive buildings to ever lighter weight structures that take advantage of new materials, such as flexible composites like architectural fabric. But, what is your take on current architecture in general around the world?
Nic Goldsmith: We are in an evolutionary moment in architecture where things are changing from the “glass box” period of today, and are starting to see what I would say is a lightweight “foil” period of tomorrow. There are about 10 to 12 ETFE projects in North America being done every year now. People are recognizing the technology much more, and although it’s still in its nascent period of growth, we can see its development.
There is all of this new technology of intelligent skins (including intelligent fabrics) being experimented with. We see amazing applications in wearables and functional apparel augmenting human performance and assisting people with disabilities; there has been this sort of technology transfer from apparel design and safety vest or protective clothing design using intelligent fabrics. We are seeing fabrics used in industrial design where previously hard materials were only considered, such as car bodies, and at some point we will see an explosive growth of the intelligent skins period in architecture and construction.
BW: What do you attribute this to? And do you feel this is positive?
NG: As I mentioned, there has been this technology transfer from apparel design using intelligent fabrics. And it obviously will soon become part of architecture; it’s just a matter of time. I’m very positive about all this. We will have multiple layered cladding skins, each responding to unique requirements. We’ve got fabric sending signals on fibers. … There is so much that we can do now, but it all needs a national support group, an architectural institute like the National Science Foundation (NSF) that gives out grants to support the research and integration. There are not a lot of architectural grants out there for this sort of research.
We are coming to a point of intersecting technologies that are overlapping but not fully integrated. There are cable net structures, foil pillows, framed grid shells. To some extent it’s almost a Frankenstein moment; people are taking things from here and there—like slapping on bolts to the neck of Frankenstein’s monster to attach a head—and mixing up systems because they are so new. There’s nothing wrong about this, but they are just not fully integrated yet. We have all these things, but are trying to figure out what to do with them; trying to understand what the aesthetics and integration of the divergent systems should be.
Another trending moment is with issues of sustainability. There is the sneaker company, Nike, making products out of recycled plastic that is harvested from the ocean. Did you know that there is this huge mass of accumulated plastic floating in the ocean? It’s about the size of Texas, some 1,200 miles across! We can’t keep dumping plastic into the environment because it will all end up in the ocean. That’s not the answer. What Nike is doing is part of a number of little steps that need to take place. Maybe these little steps can reduce the plastic island in the ocean to the size of your house? This is important.
Another example is Freitag, the company that takes old truck tarps and makes high-end backpacks, luggage and luxury fashion bags out of it. We must continue to be aware of these issues and make an effort to reduce waste, recycle materials and make something useful from them; as they say, turning lemons into lemonade.
BW: You address some of these issues in your new book, Mass to Membrane. What was the inspiration; what triggered you to write the book?
NG: Since I have been designing innovative structures for more than 40 years through my practice at FTL, and have taught at different schools including the University of Pennsylvania, Pratt Institute, Columbia and Cornell for more than 20 years, I have come to reflect on how to present this specialist technology to a wider audience. The actual spark that made me consider it was when Lindsey Falk, a professor at UPenn, once told me after hearing a series of my lectures that I needed to write this down as a book. This text is my attempt at explaining the different elements of lightweight structures in a series of discrete chapters showcasing the various aspects of this technology, including where it is coming from and where it is going.
BW: Who is your main audience? And what other audiences are you hoping to attract?
NG: My main audience is an educated but nonprofessional audience, and as such I have used many personal narratives to help explain some of the ideas in the different chapters; I find it a more approachable format than a stricter textbook approach, which many people find somewhat dry.
BW: What are three or four “takeaways” that you’d like readers to get from reading Mass to Membrane?
NG: First, I want people to understand that architecture is not a static process, but rather one that has always been changing based on developments in building technology. If one looks at architecture in this way, one sees that architectural development has been a slow evolution from the massive pyramids of Egypt, to the framed structures of Greek and Roman construction, to the lighter Gothic vaulting and eventually to the modern architecture of the twentieth century. This is an almost linear progression from solid mass constructions to diaphanous skins of glass and steel; it is our historic journey from mass to membrane. The next step into tomorrow will be lightweight ‘skin’ constructions of tensile membranes, mesh systems, clear foil pillow systems and composites of all of these.
Second, I wanted to describe the design process and the distinction between the idea of creating cool shapes and forms which I call ‘shape making’ versus the notion of ‘form finding,’ which approaches the design process by trying to understand the material intelligence of each material and how they want to be joined together. This distinction may not be very important in a more conventional architecture, but in lightweight structures it is the difference between efficient and expensive, and in my opinion between beautiful and ordinary.
Third, I want to increase the discussion about fabrics to include lighting, climate, acoustics, interiors and movement and not just ‘how does it stand up.’ To the IFAI readers who are already working in membranes, this book gives them a background illustrating how their work fits in a larger historical perspective, and describes the complex series of issues that membrane constructions need to address.
BW: How can a reader get the most out of reading this book? What strategy would you recommend to get these key takeaways?
NG: Since I’m a visual person, this book has a large visual format that ties into each chapter. It is designed to be simultaneously read and looked at, with the images reinforcing the text. It is meant to be an enjoyable experience, not an academic one; however, also one which contains much information and hopefully challenges our understanding of these structures.
Bruce N. Wright, AIA, a consultant to architects and designers, writes frequently about architecture, design and textiles for Specialty Fabrics Review, Fabric Architecture, Advanced Textiles Source and other international journals.
Source
# TRANS-EUROPA MEDIAS/ Mass Timber: Research and Design
Posted on 12 mai 2018 by TEM.REDACTION
Author: Susan Jones Publisher : ORO Editions
Agence TEM/ Trans-Europa Médias https://www.facebook.com/transeuropa.medias/
Mass Timber / Design and Research presents new research and design work with Mass Timber, a new construction technology, well-known in Europe, but relatively unfamiliar in the United States. Leading the Mass Timber design dialogue in the US, the author, Susan Jones, an architect in Seattle, Washington, has been pioneering the new, innovative use of wood over the past six years, since she built her own family’s house from cross-laminated timber in 2015 in a neighborhood in Seattle. The book presents her Seattle firm, her family, and her University of Washington students’ years of research and design. Opening with the story of three generations of her family’s own sustainable forest practices, the book presents research into Pacific Northwest forestry, timber and Cross-Laminated Timber manufacturing practices, to carbon analysis and carbon comparisons between standard building construction assemblies and technologies; and concludes with the design of model buildings both designed and built by her firm, atelierjones and her University of Washington students: including a single-family house, a church, schools, multi-family housing, and a twelve-story Tall Timber Wood Innovation tower on the University of Washington campus in Seattle.
ABOUT THE AUTHOR:
Susan Jones, FAIA, LEED BD+C, architect, is owner of atelierjones, an architecture, urban, and ecodesign firm. Founded in 2003 in Seattle, the firm’s design award winning work brings design excellence, research, and community engagement to new sustainable strategies and buildings – including groundbreaking work with Mass Timber. atelierjones recently completed the first CLT structure permitted in Seattle in June 2015: a single family house using CLT as structure and interior finish material, and a church, using CLT as a 40’ high, interior non-structural wall completed in March 2016. Both are two of the first CLT structures completed in the US. A nationally known expert on Mass Timber, she is the AIA National Representative to the ICC Tall Timber Code Committee, has taught multiple design studios on Mass Timber Design, and has spoken across the US on Mass Timber. atelierjones is now completing two modular CLTSchools to be completed in spring of 2017. A third generation native of Washington State, Susan became a Fellow of the AIA in 2010, and has been working for architects since she was sixteen.
Overview of the interview with Susan Jones :
To begin, Susan explains the difference between Mass Timber and Cross-Laminted Timber (CLT). CLT first started in the 1990s in Europe, and it’s a new product made out of an ancient one (wood). « Mass timber » is the term used to describe the entire system of CLT products.
The way that CLT/mass timber works is that, essentially, a 2×6 panel of wood is cross-laminated with another 2×6 panel, and layered over and over. This isn’t the light-frame wood often used in construction; it’s a really solid and massive wooden panel. Mass timber and CLT are important for helping developers and builders find alternative ways to replace carbon-emitting building systems like concrete and steel.
Susan used mass timber while building her own house (the first home in Seattle ever permitted for Mass Timber construction), and this taught her a lot about the product itself. Using mass timber also allowed her to interpret the Pacific Northwest paradigm of the small wooden cabin with very innovative means, using the material in a smart way that preserves forests, too. As a third generation Washingtonian, it was especially important for her to use sustainable resources.
The passing of the 5450 Bill in WA State has helped make it possible to create three new types of codes that can allow for construction with mass timber up to a specific height, while exposing the wood to a certain height. This means that there is more potential for building high-rise buildings and multi-family housing. As it is a bipartisan topic of discussion, being able to use mass timber may be something that people can rally behind, and it can possibly open up a new chapter for forestry and how we preserve our forests, as well as building more sustainably in cities.
Some people have expressed concerns that mass timber causes clear-cutting or other negative impacts on forests. However, Susan explains that mass timber does not have this type of impact — specifically, these products have been taken from sustainably harvested and managed forests. Mass timber made in the Pacific Northwest often uses source wood that was killed by the blue beetle fungus, so the dead wood was able to be used in a positive and eco-friendly way.
Susan also helps address cost concerns with mass timber. She shares that it’s actually hard to cost-effectively build a building between seven to twelve stories out of concrete and steel, but once there are more buildings with mass timber, it will be easier for others to understand how the costs compare.
There’s much more that goes into the process of building with mass timber, considering the design elements of it, too. The speed at which you can build with mass timber is also a bit faster. The optimistic forecast is that this can actually save 20-30% of scheduled build time, which translates into cost savings and even the potential to make money sooner if a building can be available for tenants earlier than originally planned. Multiple firms around the country are beginning to enter the mass timber industry, creating products for developers to use. This will, in itself, also drive costs down due to competitive pricing.
As an architect who pushed boundaries to try and change codes, Susan acknowledges that it takes a long time to get to this point. But she says that it’s best to collaborate with others to get these types of visionary ideas off the ground. The hope is that developers will begin to see the appeal in creating carbon-positive buildings and structures, and there will be even more opportunities to use mass timber for high-rises in major cities.
Nursing homes can be institutional; “aging in place” often leads to loneliness. What’s needed as our population gets older, according to this publication,are new design-based solutions. The authors make the case that the existing low-density residential grids can be retrofitted to provide for more vibrant senior living. Adaptations like the “hyper-porch” connect housing and promote interaction, while sitting porches to face each other often increases security. Placing kitchen gardens in front yards encourages both mobility and sociability for the elderly - and gives them fresh produce, too.
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