Cilllia 3D printing hair by Jifei Ou - MIT Media Lab

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DESIGN DETAILS
DESIGN NAME:
Cilllia

PRIMARY FUNCTION:
3D printing hair

INSPIRATION:
Throughout nature, hair-like structures can be found on animals and plants at many different scales. Beyond ornamentation, warmth and a sense of touch, hair is also a natural responsive material that interfaces between the living organism and its environment by creating functionalities like adhesion, locomotion, and sensing. Inspired by how hair achieves those properties with its unique high aspect ratio structure, we are exploring ways of digitally designing and fabricating hair structures.

UNIQUE PROPERTIES / PROJECT DESCRIPTION:
This work presents a computational method of 3D printing hair structures. It allows us to design and generate hair geometry at 50 micrometer resolution and assign various functionalities to the hair. The ability to fabricate customized hair structures enables us to create super fine surface texture; mechanical adhesion property; new passive actuators and touch sensors on a 3D printed artifact. We present applications to show how the method can be used for designing everyday interactive objects.

OPERATION / FLOW / INTERACTION:
Using conventional computer aided design software would mean drawing thousands of individual hairs on a computer, translating each hairs contours into a mesh of tiny triangles, a process that would take hours. Cilllia bypassed all that with a new voxel based printing software platform that lets users define the angle, thickness, density, and height of thousands of hairs in just a few minutes. The printed hair can be used as an adhesive surface like Velcro; an actuated surface to move object in designed paths; or a sensing surface to sense user's touch and swipe.

PROJECT DURATION AND LOCATION:
The project started in February 2015 in Boston and finished in May 2016 in Boston, and will be exhibited in Centre Pompidou in March 2017.

PRODUCTION / REALIZATION TECHNOLOGY:
all samples were fabricated with stereolithography 3D printing. We developed a voxel-based model generation method to instruct the printer to print various hair geometry and structure.

SPECIFICATIONS / TECHNICAL PROPERTIES:
each sample is approximately 40 by 60 by 60 mm. they can be assembled together to form larger design

TAGS:
3D Printing, New Material, Surface Texture, Actuated Interfaces; Acoustic Sensing; Digital Fabrication; Hair.

RESEARCH ABSTRACT:
This work presents a voxel-based method for 3D printing hair-like structures on both flat and curved surfaces. It allows a user to design and fabricate hair geometries at the resolution of 50 microns. We built a software platform to let users quickly define the hair angle, thickness, density, and height. The ability to fabricate customized hair-like structures not only expands the library of printable shapes, but also enables us to design passive actuators and swipe sensors.

CHALLENGE:
Most of the current commercially available 3D printers use a layer by layer method to deposit materials into shapes that are designed in the CAD. The process follows a top-down pipeline, in which users create digital 3D models, and then a program slices the models into layers for the printer to print. It is difficult and impractical to create many thousands of small hairs with real geometry using conventional CAD systems. The data for describing the total geometry becomes extremely large and rendering such complex structures can also be computationally expensive.

ADDED DATE:
2016-09-26 17:46:43

TEAM MEMBERS (5) :
Jifei Ou, Gershon Dublon, Chin-Yi Cheng, Karl Willis and Hiroshi Ishii

IMAGE CREDITS:
All Photo/video credit to Tangible Media Group, MIT Media Lab

Visit the following page to learn more: http://bit.ly/2argzOK


CLIENT/STUDIO/BRAND DETAILS
NAME:
Tangible Media Group, MIT Media Lab

PROFILE:
The Tangible Media Group at MIT Media Lab explores the Tangible Bits & Radical Atoms visions to seamlessly couple the dual world of bits and atoms by giving dynamic physical form to digital information and computation. To address this challenge, we presented our new vision, “Radical Atoms”, in 2012. Radical Atoms takes a leap beyond Tangible Bits by assuming a hypothetical generation of materials that can change form and appearance dynamically, becoming as reconfigurable as pixels on a screen. Radical Atoms is a computationally transformable and reconfigurable material that is bidirectionally coupled with an underlying digital model (bits) so that dynamic changes of physical form can be reflected in digital states in real time, and vice versa. Radical Atoms is the future material that can transform their shape, conform to constraints, and inform the users of their affordances. Radical Atoms is a vision for the future of human-material interaction, in which all digital information has a physical manifestation so that we can interact directly with it. We no longer think of designing the interface, but rather of the interface itself as material. We may call it “Material User Interface (MUI).”



NOMINATION DETAILS

Cilllia 3d Printing Hair by Jifei Ou-Mit Media Lab is a Nominee in 3D Printed Forms and Products Design Category.

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AWARD DETAILS

Cilllia 3d Printing Hair by Jifei Ou-Mit Media Lab is Winner in 3D Printed Forms and Products Design Category, 2016 - 2017.



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