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FIBERwave is a full scale carbon fiber pavilion designed and built by students in the College of Architecture at IIT. Read more

Chicago, IL Architecture
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Funded!

This project was successfully funded on March 25, 2014.

FIBERwave is a full scale carbon fiber pavilion designed and built by students in the College of Architecture at IIT.

Chicago, IL Architecture
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About this project

FIBERwave PAVILION

Carbon_Lab is a student based design research studio within the College of Architecture at the Illinois Institute of Technology devoted to the study of performative and adaptive physical fabrication. Our studio’s current focus is engaged in working with composite fiber materials, specifically carbon fiber, and utilizing their unique properties within architectural design.     

Why Carbon Fiber?

Carbon fiber material is a flexible and malleable cloth that can be cut with scissors and easily formed and fit over three dimensional molds. When coated and cured with an epoxy resin, it can become hard as steel. Layers and layers can be added to enhance strength, giving the designer great control over structural properties while remaining incredibly light weight. Carbon fiber’s amazing adaptive qualities have already been extensively utilized within the automotive and aerospace industries. 

It’s time architects join the game.

Through the fabrication of a full scale carbon fiber pavilion, our goal is to showcase the great potential composite materials can bring to architectural expression. The pavilion design is comprised of one geometric unit ‘the shell’ repeated over fifty times. The shell connects laterally at two points to another shell on either side with metal rings, creating flexible rows. The rows are then connected vertically by another set of rings. A specific pattern of row length and vertical connections creates a curving wavelike structure, we call it FIBERwave. Tension cables running through the connected shells give the structure its shape. The nature of the ring connection and the shell geometry allows the pavilion to undulate and morph. When the tension cables are pulled tight the shells interlock and press against each other, opening the pavilion to its fullest height. When the cables are loosened, the structure relaxes and closes. FIBERwave in this sense is an adaptive, parametric model designed to change and react to its environment over time.

FIBERwave is an adaptive model.

Carbon_Lab aims to challenge static processes within design practice and culture. We hope to explore new materials and inspire innovative procedures that push the boundaries of parametric thinking and produce meaningful and high performance results. Our intent is to become an expert resource in working with composites. Doing so requires a high level of digital modeling, fabrication, craft skills and attention to detail. A few of the exciting reasons for exploring the possibilities of composites within architecture are their ability to build lightweight, dynamic and easily variable strength structures.

For more information:

Visit our blog: http://fiberwavepavilion.com

Follow us on our Facebook: https://www.facebook.com/IITFIBERwave

Incentives:

3D Printed Ring
3D Printed Ring
3D Printed Earrings
3D Printed Earrings
3D Printed Necklace
3D Printed Necklace
T-Shirt
T-Shirt
1/6 scale carbon fiber shell replica
1/6 scale carbon fiber shell replica
T-Shirt Size Chart
T-Shirt Size Chart
Ring Size Chart
Ring Size Chart
              

Risks and challenges

Working with composite materials raises many challenges including: material capabilities, IIT fabrication equipment size and cost among others. These challenges have driven an intensive trial and error series of experimentations striving to develop the best processes for generating composite fiber forms economically and efficiently.

With over a semester of experience working with carbon fiber as a performative material our team has developed a proven fabrication process. If fully funded, we are confident we will complete our full scale FIBERwave pavilion.

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Rewards

  • You selected
    Pledge $5 or more

    6 backers

    You will get a shout out on our blog with your name, as well as a heartfelt thank you e-mail from us.

    Estimated delivery:
    Ships anywhere in the world
  • You selected
    Pledge $10 or more

    1 backer

    We will send, directly to your door, an original FIBERwave thank you card.

    Estimated delivery:
    Ships anywhere in the world
  • You selected
    Pledge $15 or more

    6 backers

    You will receive one of our 3D printed rings fresh from the oven. Utilize our handy ring size chart to select your size.

    Estimated delivery:
    Ships anywhere in the world
  • You selected
    Pledge $15 or more

    11 backers

    Alternate Option! Receive a set of our 3D printed earrings.

    Estimated delivery:
    Ships anywhere in the world
  • You selected
    Pledge $25 or more

    10 backers

    A 3D printed Necklace. All necklaces come with an adjustable length cord.

    Estimated delivery:
    Ships anywhere in the world
  • You selected
    Pledge $35 or more

    23 backers

    Wear it Proud! You will receive a t-shirt with our pavilion’s logo.

    Estimated delivery:
    Ships anywhere in the world
  • You selected
    Pledge $50 or more

    16 backers

    Pledge to this level and receive a 1/6 scale replica of our carbon fiber shell unit.

    Estimated delivery:
    Ships anywhere in the world
  • You selected
    Pledge $100 or more

    19 backers

    You are a FIBER Fanatic! You will receive all of the previously mentioned incentives (choose between ring or earrings).

    Estimated delivery:
    Ships anywhere in the world
  • You selected
    Pledge $250 or more

    1 backer

    You will take part in a hands on carbon fiber fabrication workshop.

    Estimated delivery:
  • You selected
    Pledge $500 or more

    1 backer

    You will take part in a hands on carbon fiber fabrication workshop and receive all of the previously mentioned incentives (choose between ring or earrings).

    Estimated delivery:

Funding period

- (24 days)