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lampertina
Lampertina bookmarked on 2008-05-23 pingmag transmaterial bioneering biomimicry architecture technology blaine_brownell sustainable_materials

PingMag interview with Blaine Brownell, architect and sustainable materials researcher, whose focus is on green building.

"From repurposed materials that act as surrogates, to recombinant ones that fuse several materials into a hybrid, making them stronger and more effective — Blaine points us to products that might shape our physical environment in the future."

Materials discussed include self-healing polymers inspired by biological systems, which can automatically heal cracks in buildings, for example.

The article includes many other photographs / examples with descriptions of weird and wonderful bioneered and sustainable building materials.

  • I studied architecture and practised in the field for over a decade, and I believe this experience has been essential because of my exposure to the exploding number of innovative building materials. During my early years of practice, I had a chance to research materials for a prominent project and was impressed by the challenges as well as opportunities associated with this task. I immediately saw a need to share this — which typically gets archived when a project is completed — with a larger audience of architects, designers, contractors, etc. I began an electronic journal and database, which quickly became popular with a growing audience of material enthusiasts who have given generous feedback. Over time, I have been able to appreciate the critical trajectories of material development as a result.
  • Although Europe and Japan are largely ahead of the curve, the United States has struggled with the development of sustainable building practices since the softening of the 1970s oil crisis that initiated much of the initial interest in green architecture in this country. I think the primary challenge to sustainable design is the fact that it has been viewed primarily as a long-term intellectual proposition without immediate economic benefit, and the relatively cheap cost of petroleum has made it nearly impossible to convince industries to consider other alternatives.

  • Very true! Alex Steffen speaks in his Worldchanging — A User’s Guide to the 21st Century of the world’s natural resources as our ecological capital, saying that the ultimate bankruptcy will not land us in a state-run old people’s home ― it’ll land us in a world of deserts, hunger and freaky weather. Can the employment of sustainable materials and energy conservation methods save us from such a harsh reality?



    I believe Alex’s prediction is correct at certain scales.

    • lampertina
      Lampertina on 2008-05-23
      - useful qualification: "at certain scales."
  • we have to face the discouraging truth about accelerating environmental degradation and act quickly to prevent it. Since buildings comprise roughly half of the problem in terms of energy use and emissions, vastly improved materials, construction methods and energy use should help significantly.
  • The title is a conflation of the words transformational materiality, and the book is the second volume of materials that have significant potential in shaping the physical environment through design innovation.
  • Ultraperforming materials attempt to push conventional performance boundaries; multidimensional materials enhance structural depth in order to maximise resources; repurposed materials are surrogates for more precious, conventional resources; recombinant materials are hybrids in which the sum exhibits superior characteristics to individual components; intelligent materials employ creative structural and formal ideas for enhanced environments; transformational materials undergo change based on environmental stimuli; and interfacial materials explore digital processes and fabrication.
  • The term often used is disruptive technologies — a title that suggests radical departures as opposed to incremental developments. One focus is materials whose behaviour conflicts with our traditional understanding — such as bendable concrete, transparent ceramics, or exfoliated graphite nanoplatelets. Another focus considers materials imbued with biomimetic qualities, like self-healing polymers, strong enviroboard, and active protection system. Another focus considers environmentally remediating materials such as Italcementi, Superabsorber, and Reben. Yet another focus relates to digital fabrication innovations, such as the Ombrae system, intaglio composites, and Erwin Hauer Continua.

  • You speak of materials and products that have unique phenomenological effects. Explain, please!



    What I mean here concerns materials that generate unconventional responses when interacted with — such as the light-bending properties of Sensitile or the colour and pattern-changing qualities of Living Surfaces.

This link has been bookmarked by 1 people . It was first bookmarked on 23 May 2008, by Yule Heibel.

  • 23 May 08
    lampertina
    Yule Heibel

    PingMag interview with Blaine Brownell, architect and sustainable materials researcher, whose focus is on green building.

    "From repurposed materials that act as surrogates, to recombinant ones that fuse several materials into a hybrid, making them stronger and more effective — Blaine points us to products that might shape our physical environment in the future."

    Materials discussed include self-healing polymers inspired by biological systems, which can automatically heal cracks in buildings, for example.

    The article includes many other photographs / examples with descriptions of weird and wonderful bioneered and sustainable building materials.

    pingmag transmaterial bioneering biomimicry architecture technology blaine_brownell sustainable_materials

    • I studied architecture and practised in the field for over a decade, and I believe this experience has been essential because of my exposure to the exploding number of innovative building materials. During my early years of practice, I had a chance to research materials for a prominent project and was impressed by the challenges as well as opportunities associated with this task. I immediately saw a need to share this — which typically gets archived when a project is completed — with a larger audience of architects, designers, contractors, etc. I began an electronic journal and database, which quickly became popular with a growing audience of material enthusiasts who have given generous feedback. Over time, I have been able to appreciate the critical trajectories of material development as a result.
    • Although Europe and Japan are largely ahead of the curve, the United States has struggled with the development of sustainable building practices since the softening of the 1970s oil crisis that initiated much of the initial interest in green architecture in this country. I think the primary challenge to sustainable design is the fact that it has been viewed primarily as a long-term intellectual proposition without immediate economic benefit, and the relatively cheap cost of petroleum has made it nearly impossible to convince industries to consider other alternatives.
    • 6 more annotations...

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