Instructables, the web-based documentation platform, has awarded Inition first prize in a competition that had over 1,000 entrants!
Inition’s Chocolate Brain entry combined some cutting-edge and very traditional 3D techniques. Our 3D printing team turned a high-tech MRI scan into a delicious, if slightly macabre, chocolate treat. The project concluded with Inition’s co-founder Andy Millns literally consuming his own brain!
Our prize for winning the contest is an Up! 3D Printer – which will take pride of place next to our Zprinter 450 and our Projet 3000. To view our winning entry, with detailed instructions on the techniques and workflow involved, visit Instructables and follow the step by step guide to making your very own chocolate brain. Plus find the video and details in our case study section.
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Inition Co-founder Eats His Own Brain
Future of 3D #3 : Design, Print, Fly!
The Brief
Co-founder and director of Intion Stuart Cupit, also keen photographer and kite-flyer, decided to set himself a challenge to build a rig capable of taking panoramic aeriel photos from his parafoil kite...
The rig needed moving parts, had to be light-weight but strong enough to hold servos and a digital camera and withstand the odd crash landing.
Solution
Stuart designed the rig using 3D Studio Max and included 5 independent moveable stages, a complete gear system, fittings for 4 servos, a microcontroller, batteries and, most importantly, a digital camera.
The final design was printed out in one go (yes, no assembly!) using our Invision-XT 3D printer. The various joints and gears were designed in place with the 0.1mm clearance between any two parts required to allow them to move independently. The VisiJet SR200 build material used is strong enough to be for functional finished products.
The gears, axels and sleeves freely revolve and the fleixble nature of the material, when printed in thin sections, allowed the servos to be held in place by sprung hinged latches. The servos follow a pre-recorded set of moves using a Milinst Wizard board.
Results
- A Picavet suspension allowed the camera rig to self-level and prevents twisting. A geared mechanism reduced the speed of one of the servos by 20 to 1 to allow the rig to be rotated. The gears were printed in place and once support material is removed just work with no assembly!
- The Flight: The whole rig was attached to a Sutton Flowform 16 kite using a pair wire hangups on 200m of cord. The kite needed a 25mph wind to get the 1kg rig into the air. Flown from Hamstead Heath, the rig took 50 blurry photos the first time! The second flight got some great shots looking south across London, and some bemused looks from on-lookers!
Check out our 3D Printing Service and our Future of 3D blog at fo3d.posterous.com for our latest experiments in 3D.
About our 'Future of 3D' series
The 'Future of 3D' series is about exploring the boundaries of future 3D technology through non-commercial creative projects. Supporting this type of work is core to Inition's core values of developing new uses of 3D technology, supporting creativity and nurturing the passion of it's staff and collaborators. If you have an idea for a 'Future of 3D' project, we'd love to hear from you.
Future of 3D: #1 - Scan, Print, Explode!
For our first 'Future of 3D' project we decided to have some 3D fun with Shannon's head to celebrate our 10th Birthday and the launch of our 'Future of 3D' series.
This project combined a wide range of our skills and 3D technologies. But mainly we enjoyed it because it involved blowing stuff up! If you're interested in finding out more, make sure you watch the video above.
Some of the kit we used: ZPrinter 450, Mephisto EX Scanner, Phantom/Quasar 3D Stereoscopic Filming Rig
We'd like to point out that no Shannons were harmed in this project, although strangely enough he had a slight headache afterwards. Check out our Future of 3D blog at fo3d.posterous.com for our latest experiments.
About our 'Future of 3D' series
The 'Future of 3D' series is about exploring the boundaries of future 3D technology through non-commercial creative projects. Supporting this type of work is core to Inition's core values of developing new uses of 3D technology, supporting creativity and nurturing the passion of it's staff and collaborators. If you have an idea for a 'Future of 3D' project, we'd love to hear from you.
Future of 3D: #2 - Sketch, Sculpt, Print!
Future of 3D
Inition’s “Future of 3D” series encourages work on non-commercial projects which help to push the boundaries of current 3D creative and technology. This was the first time we had seen a project go from sketched concept, through haptic modelling to a physical 3D printed model. Organic designs are not usually immediately associated with computers but with Claytools strength in creating organic shapes and our 3D printer's ability to print them, we see a great future for this combination of technologies in product design.
The Brief
As part of Inition’s “Future of 3D” series, our 3D printing team agreed to work with BA design student Kristin Katzer from the London College of Communication to realise a packaging design for fruits.
Solution
Concept- The concept for Kristin's organic design was based on structures of nature, in particular her research into “tafoni structures” produced during the calcification of porous sandstone.
Freeform Design- Designing these organic structures using a typical 3D CAD package would have proved very difficult, however with Inition's guidance Kristin realised the design through the intuitive interface of the Sensable Phantom Omni in conjunction with the Claytools software. Claytools is a design package specially tailored towards haptic modelling, allowing the user to directly sculpt, manipulate and feel the surface of a model through a pen-line interface attached to a motorised force-feedback arm.
3D Print- After adding colour to the CAD model, the complex design was prepared for print Paul Armand, one of Inition's 3D printing specialists. Our full colour 3D ZPrinter 450 printed out the model over-night including two end caps with extruded lettering.
Results
The final design forms part of Kristin’s degree and was shown at the BA Design Show at the London College of Communication in June 2011.
Thanks to Kristin for creating a great piece; the first thing we've 3D printed that has been created on a haptic device.
The kit we used: ZPrinter 450, Phantom Omni with Claytools software
Check out our Future of 3D blog at fo3d.posterous.com for our latest experiments.
Future of 3D: #4 - 3D Printed Chocolate Brain
Inition's fourth project in our 'Future of 3D' series involved some cutting-edge and very traditional techniques...
The Brief
To take medical MRI brain scan data and turn into an edible brain!
Solution
Handily, Inition co-founder Andy Millns had recently had his brain scanned as part of a research project. This meant that we alerady had the data we needed to transform his brain into chocolate. The team set to work; extracting a 3D model from the sliced-image MRI data. This was then then 3D printed on our ZCorp 450 machine. A latex mould of the 3D printed brain was then created, melted chocolate was poured and after a few hours in the fridge, a chocolate brain was revealed! This makes it sound quite simple, but if you want the full details, we created an Instructable here.
Results
The chocolate brain story was featured in The Telegraph, Mirror, Gizmodo, MSN, laughingsquid, science in society and various other blogs and news stories.
We won 1st place in the Instructables 'Make It Real' challenge and were awarded a 3D printer!
There were over 15,000 views on instructables within the first week of going live.
Adrian Covert worte an article in gizmodo australia stating, "The Edible Chocolate brain is perfect for the narcissit in love with their own intellect"
Bethany Hubbard wrote a blog in 'science in society' and had mentioned thus, "Inition, a pioneering creative 3D technology and production company has given a new dimension for chocolate lovers. They make the world of Matrix feel not to far off"
Overall, there was a huge positive response and people loved this idea. Rob Leigh wrote an article in Mirror News where he went on giving ideas to chocolate companied to give a different edge to regular chocolate fingers!
This exercise has brought a whole new dimension to the usage of 3D printed models. This technique can be used to 3D print objects sourced from medical imaging data (not just for making chocolate brains!). Inition is very excited to be at the forefront of exploiting the technology in a wide range of areas.
Inition is delighted that our film, 'How to Eat Your Own (Chocolate!) Brain' (see above), has been selected to be screened at the 5th Annual Imagine Science Film Festival in New York (November 8th-16th, 2012), to help spark the public's interest in science.