Story originally published on February 15, 2017
By Anne Brice, Berkeley News
 
UC Berkeley is a leader in 3D printing. From creating a prosthetic hand for an 8-year-old girl to a “smart cap” that senses spoiled food to large-scale cement buildings, engineers and designers on campus are pushing the technology to the limits, using it in ways never seen before.
 
The technology got its start on campus about a decade ago and continues to grow. With this surge in popularity has come a surge in plastic waste. Now, with more than 100 printers on campus, at least 600 pounds of trash is generated each year.
 
But Nicole Panditi, a mechanical engineering student, and Scott Silva, and environmental sciences student, have a solution.
 
Panditi and Silva, who work for the Student Environmental Resource Center, and Ph.D. student Mickey Clemon are leading the 3D Printer Filament Reclamation Project to decrease the amount of plastic waste made by 3D printers on campus. They’re creating a campuswide system that takes used 3D printer plastic, grinds it up, melts it down and produces a new spool of plastic that can be used again in the campus’s 3D printers.
 
Although there have been several smaller student efforts to recycle 3D printer plastic on campus, and some campus labs buy recycled filament, this would be the first time Berkeley had an infrastructure to recycle all the 3D plastic waste on campus, something Panditi says will be essential as 3D printing becomes more and more popular.
 
“It’s my personal goal to reduce inefficiencies in 3D printing so that the tech industry can reach its full beneficial potential without being haunted by mountains of ugly waste,” she says.
 
The project is spearheaded by Cal Zero Waste, which aims to decrease waste on campus and to find new, creative ways to reuse and recycle items, particularly plastics. Lin King is manager of Cal Zero Waste and adviser to the 3D printer filament reclamation team. He says creating a closed loop of 3D printer plastic waste on campus not only decreases the amount of plastic waste, but also lightens the carbon footprint.
 
“The idea is that the plastics would never have to leave campus,” says King. “We would provide Berkeley-produced recycled filament and any discarded items would be sent right back to us.”
 
As 3D printing becomes more mainstream, one area where it will prove useful is mass customization, says mechanical engineering professor Tarek Zohdi, the lead faculty member of the project. “One very special niche is for biological implants for prosthetics — for children in particular. Children who have lost a limb need new prosthetics designed for them as they start to grow.”
 
Experts aren’t the only ones using 3D printers at Berkeley. Students in labs across campus, from Jacobs Hall to the Digital Fabrication Lab, can print models for their projects, quickly creating new prototypes. Even novices can now print their own projects at Moffitt Library’s Makerspace. For people new to 3D printing, says Panditi, up to half of their projects can fail.
 
“That’s what is great about 3D printing, and that’s also why there is so much trash generated,” says Panditi. “In rapid prototyping, you’re making iteration after iteration until you get it perfect. What happens with all those iterations is you throw them away. And that’s where all the plastic trash comes in.”
 
The most popular type of plastic for 3D printing on campus is bio-based PLA. The plastic of choice used to be petroleum-based ABS plastic, which has since been found to release a carcinogen when it’s heated. Although PLA is marketed as compostable, most facilities, including the facility that Berkeley uses — Republic Services West Contra Costa Landfill in Richmond — don’t use a long enough cycle to break down these plastics, which can take 90 to 120 days to completely decompose. After a normal 45-day cycle, the facility will sift through the compost material and pull out any plastics that remain, then throw them into a landfill.
 
The facility says it’s in the process of changing how long plastics stay in the compost cycle, so that eventually compostable plastics will break down, but hasn’t done so yet. That’s why it’s even more crucial to find alternative ways to recycle plastics on campus, says King.
 
The campus does not recycle PLA because there isn’t a U.S. market for it. That means it would be shipped to another country, such as China or Vietnam.
 
The 3D printer filament reclamation team has proven that the process works, but is missing one key piece before it can officially pilot the program on campus. Right now, the team is using a kitchen blender to break down the plastics — hardly efficient for managing the growing amount of plastic waste from 3D printers — so they’ve launched a crowdfunding effort to raise $5,000 to buy a grinder, along with machinery they will need for the pilot program.
 
Learn more about the Student Environmental Resource Center.
 
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