Presentation for the Portland 3D Printing Lab RodinRemix celebration at the Portland Art Museum. Our group 3D printed an interactive exhibit shown alongside the Rodin:The Human Experience exhibit featuring works owned by the Cantor Foundation. This is the story of the project told in pictures and stats.
3. TODAY
• 0530p – Networking
• 0600p – #RodinRemix
• 0630p – See the Museum!
• 0730p – Concluded
4. SOCIAL
• Check into Portland Art Museum
• Tweet @PDX3DPLAB @PDXArtMuseum #RodinRemix
• Instagram selfie with our Artwork!
@PortlandArtMuseum #RodinRemix
12. ANATOMY OF A VOLUNTEER PROJECT
• #rodinremix activity
• Collection of 3D Printed
Rodins
• Scans of 10-12 pieces
• Live 3D Printing in-Museum
• Meetup in the Museum
Lego
nubs
Ideas
Ball
joints
Scan
ALL the
things
Ball
joints
Performance Art
Captive
ball
bearings
16. CREATING REMIX DYNAMIC
• Magnetic coupling makes “remixing”
possible
• Start with models from MyMiniFactory
• Import with Autodesk Remake
• Scale/Size with Autodesk F360
• Embedded Metal/Magnets
• Balance/Foot pads
17.
18.
19. 3D SCANNING
• Structure Sensor +
iPad
• Skanect App
• Scan from all angles
• Remove artifacts
• Close holes
• Resize for 3D Print
• http://goo.gl/KoNMi7
20.
21.
22. BRINGING IT ALL TOGETHER
• 25 Volunteers synchronized by a spreadsheet
• Models uploaded by content creators.
• Part orders with specifications organized by team lead
• Volunteers select prints within their capability
• No duplicates
• Handoff if help needed
• Status updates posted daily
• Automated statistics
32. #RODINREMIX
629 Print Hours
30kg Plastic
29 Sculptures
25 Volunteers
18 Design Hours
12 Scan Hours
1 great project
Many thanks to Adam McGee, Miguel Higgins Moy, Gord Christmas, Maz and Attero, Ryan Blackwood, Jesse Jenkins, Matt
Liepold, Mike Shkolnik, Steve Bigelow, Matt Wood, Dale Grimes, Dave Bahr, Dave Helbley, Mindy Thielges, and Matt Griffin.
33. 3DP – APRIL 2017
What’s new, mind-blowing, and printable!
The process they have developed employs a method known as ‘Hot Stereolithography’, as well as a special coating technique, which allows high performance polymers to be used. The extremely viscous, sticky materials used have improved features which allow for a much more efficient use of the technology. Compared to the brittle polymers that are currently on the market, these polymers are very strong and resistant to impact, and they are also designed to withstand temperatures of up to 100 degrees Celsius. Along with these improved qualities, they also maintain the qualities of geometrical precision associated with precision injection moulding.