Search Results for: 3d printer
Moddler is Making the Market in High-End 3D Printing [Video]

John Vegher, founder of Moddler, is making a market in high-end 3D printing. His clients are from all industries: medical devices, industry designers, film studios, fine artists, students, architects, and more.
His team receives a digital file and then 3D prints the design on an Objet Eden 500V, which costs about $250,000 and can print high-resolution in 16 micron layers. They clean up the print and ship it back to the customer.
Where does Vegher see big changes coming? In material science. You can print in glass, metal and more.
Watch the video below to see what Moddler is cooking up in 3D printing.
Via VentureBeat.
Come to London for the Olympics, Stay for the 3D Print Show

The Internet changed the world in the 1990s. The world is about to change again.
That’s the tag line for the next big event in London after the 2012 Olympics: the 3D Print Show in October. Stay tuned for more coverage from us leading up to the show.
Below is an excerpt from a preview of the 3D Print Show by the UK publication The Telegraph.
Kerry Hogarth, the organiser of the show, said the show would introduce people to the entire process involved in 3D printing: scanning real world objects to make replicas, designing new objects using computer software and then printing the results.
“The people who will come to the show are probably early adopters,” she said. “Over the last three to six months a lot of people have been enquiring about what to do.”
Among the companies exhibiting at the show will be EuroPac 3D, a scanning company whose work includes scanning the Harry Potter set for use in computer-generated imagery and scanning decaying sculptures on the roof of Blenheim Palace so that they can be accurately preserved.
John Beckett, EuroPac’s managing director, said: “We’ll have scanners there that will be able to scan, say, jewellery. We’ll have a complete body scanner which will be able to make a complete scan in about five seconds.”
Although printers capable of producing large objects are still outside the price range of most people, Ms Hogarth predicts that prices will fall over the next couple of years.
Via The Telegraph.
London Olympics photo by UK in Italy used under Creative Commons license.
Scientists Create Blood Vessels Using Sugar and 3D Printing

University researchers have discovered a way to 3D print blood vessels, using sugar as the “ink” and a RepRap 3D printer. UPenn and MIT researchers collaborated on the study.
The research was conducted by a team led by postdoctoral fellow Jordan S. Miller and Christopher S. Chen, the Skirkanich Professor of Innovation in the Department of Bioengineering at Penn, along with Sangeeta N. Bhatia, Wilson Professor at the Massachusetts Institute of Technology, and postdoctoral fellow Kelly R. Stevens in Bhatia’s laboratory.
The researchers published their findings in Nature and summarized their results in a UPenn statement.
Rather than trying to print a large volume of tissue and leave hollow channels for vasculature in a layer-by-layer approach, Chen and colleagues focused on the vasculature first and designed free-standing 3D filament networks in the shape of a vascular system that sat inside a mold. As in lost-wax casting, a technique that has been used to make sculptures for thousands of years, the team’s approach allowed for the mold and vascular template to be removed once the cells were added and formed a solid tissue enveloping the filaments.
The formula they settled on — a combination of sucrose and glucose along with dextran for structural reinforcement — is printed with a RepRap, an open-source 3D printer with a custom-designed extruder and controlling software. An important step in stabilizing the sugar after printing, templates are coated in a thin layer of a degradable polymer derived from corn. This coating allows the sugar template to be dissolved and to flow out of the gel through the channels they create without inhibiting the solidification of the gel or damaging the growing cells nearby. Once the sugar is removed, the researchers start flowing fluid through the vascular architecture and cells begin to receive nutrients and oxygen similar to the exchange that naturally happens in the body.
Below is a video showing their amazing discovery.
Read more from the UPenn summary.
Blood vessel photo by shoebappa used under Creative Commons license.
Fab Lab of the Week: 3D Printing Providence Interest Group

This week’s featured Fab Lab is 3DPPVD, or 3D Printing Providence. Although 3DPPVD is more of a meetup than a Fab Lab, it is spreading the interest and adoption of 3D printing.
We are pleased to announce the first meeting of 3DPPVD, a monthly meetup for MakerBot, RepRap, other 3D printer operators and anyone who’s interested in digital fabrication. Even if you are not an owner of a 3D printer this will be a great opportunity to learn about the emerging field of desktop rapid prototyping. If you do have a printer feel free to bring it down and show off your mods and prints.
Our first meeting will be on Wednesday July 11th at AS220 Labs (AS220 Mercantile Block, 131 Washington St (Entrance on Lucie Way), Providence, Ri) from 7pm until they kick us out. Since this is the inaugural event, there won’t be a theme so we have time to get to know each other and find out what kind of topics we would like to discuss at future events. This event is free and open to the public so please bring your friends and family.
Via MAKE.
3D printer photo by makerbot used under Creative Commons license.
Infographic: Go On, Print a Liver – The Evolution of Bio 3D Printing

We have covered the emergence of 3D printed organs and other scientific feats made possible by 3D printing.
This infographic, created by Printerinks, shows the journey from humble origins in 1984 to today’s scientific breakthroughs by companies such as Organovo.
Webpronews commented on the infographic:
As we learned back when researchers were creating working blood vessels with a 3D printer, the process is as simple as it is complex. It starts with the growth of cells. The 3D printer comes into play when they are used to create a layered structure that’s then layered with cells that attach to the structure and turn it into the organ.
With our current technology, it’s estimated that it would take 10 days to print a liver. As technology improves, it’s estimated that scientists could print a liver in three hours. That’s great news for the thousands of people who are waiting for a live transplant to save their life.
The creation of organs through 3D printing has another, less talked about function, as well. If we could test drugs on 3D printed human livers, it would save millions of dollars and years of time that it takes to develop and test new drugs on animals before it’s even considered for human testing.
As you can see, 3D printing is seriously the most important invention of the 20th century.
Go on, print a liver.
Via Webpronews.









