Motorola Mobility, a Google company, is building a 3D printed modular phone, and has partnered with 3D Systems for commercial fulfillment. More »
The Captured Dimensions pop-up studio was located in the Smithsonian Castle and featured approximately 80 digital cameras all connected to 3D software. More »
Microsoft expanded their support for 3D printing by launching a Windows 8 app called 3D Builder. It includes a library of objects you can edit and 3D print. More »
3D Systems (NYSE:DDD) announced the availability of the Sense 3D scanner, the first 3D scanner designed for the consumer and optimized for 3D printing. More »
With rumors circling that 3D Systems will be purchased by IBM, the stock soars. We look at why IBM might be interested in the 3D printing giant. More »
Yearly Archives: 2012
Fab Lab of the Week: 2nd Fab Lab Opens in the UK, Fab Lab Airedale
This week’s featured Fab Lab is called Fab Lab Airedale. Located in Dalton Mills, Keighley, it is the UK’s second Fab Lab. The first Fab Lab in the UK was opened in Manchester in 2010.
About Fab Lab Airedale:
Fab Lab is the first stage of an ambitious project to create a Centre of Manufacturing Excellence within Airedale serving Bradford District and the surrounding parts of the Leeds City Region. Fab Lab Airedale is a collaborative venture between the Airedale Partnership, Bradford Council and Leeds City College, with support from The Manufacturing Institute. The Fab Lab Airedale will operate as a not for profit company limited by guarantee. Any profits generated through the running of the Fab Lab will be reinvested in the aims of the project which are to promote innovation and excellence within the local manufacturing and related sectors.
Dalton Mills offers the perfect mix of old and new, blending the opulence of Victorian splendour with modern facilities ideal for today’s fast-paced working environment.
Dalton Mills is a former textile mill, located by the side of the River Worth, on Dalton Lane in Keighley, near Bradford. The majestic mill, which has been a landmark of the town for more than 140 years, was acquired by Magna Holdings Ltd in 2004.
It is now having a multi-million pound make-over to restore it to it’s former glory, and with massive regeneration taking place in Airedale over the next decade, there has never been a better time to relocate to Keighley.
Learn more about Fab Lab Airedale at their website, or follow them on Twitter @FabLabAiredale.
See all of our featured Fab Labs in our weekly series.
America Will Lead the Future of Manufacturing, China Will Follow
In a fantastic opinion piece by technology entrepreneur and academic Vivek Wadhwa, the case is made that America will be the center of manufacturing, not China. This won’t happen through increasing Chinese labor costs or monetary policy, but through American innovation in technology. Specific innovations cited include robotics, AI, 3D printing, and nanotechnology.
Below are Wadhwa’s thoughts on 3D printing:
A type of manufacturing called “additive manufacturing” is now making it possible to cost-effectively “print” products. In conventional manufacturing, parts are produced by humans using power-driven machine tools, such as saws, lathes, milling machines, and drill presses, to physically remove material until you’re left with the shape desired. This is a cumbersome process that becomes more difficult and time-consuming with increasing complexity. In other words, the more complex the product you want to create, the more labor is required and the greater the effort.
In additive manufacturing, parts are produced by melting successive layers of materials based on three-dimensional models — adding materials rather than subtracting them. The ”3D printers” that produce these parts use powered metal, droplets of plastic, and other materials — much like the toner cartridges that go into laser printers. This allows the creation of objects without any sort of tools or fixtures. The process doesn’t produce any waste material, and there is no additional cost for complexity. Just as, thanks to laser printers, a page filled with graphics doesn’t cost much more than one with text (other than the cost of toner), with 3D printers we can print a sophisticated 3D structure for what it would cost to print something simple.
Three-D printers can already create physical mechanical devices, medical implants, jewelry, and even clothing. The cheapest 3D printers, which print rudimentary objects, currently sell for between $500 and $1,000. Soon, we will have printers for this price that can print toys and household goods. By the end of this decade, we will see 3D printers doing the small-scale production of previously labor-intensive crafts and goods. It is entirely conceivable that, in the next decade, manufacturing will again become a local industry and it will be possible to 3D print electronics and use giant 3D printing scaffolds to print entire buildings. Why would we ship raw materials all the way to China and then ship completed products back to the United States when they can be manufactured more cheaply locally, on demand?
Read the full article at foreignpolicy.com.
American flag photo by Loving Earth used under Creative Commons license.
Vivek Wadhwa photo by BAIA used under Creative Commons license.
Results of First Survey On 3D Printing: Adoption, Education, Services
[Updated for corrections]
The results of the first survey on 3D printing are captured below, courtesy of Statistical Studies of Peer Production. We wanted to highlight the most interesting statistics.
First engagement with 3D printing: The survey asked respondents when they first used 3D printing. The largest concentration was for the year 2011. 2010 and 2012 were close runners up. This suggests that we are at an inflection point for adoption of 3D printing.
Education level: 33.7% of 3D printing users have a 4-year college degree and another 23.5% have an advanced degree. This suggests that the earliest adopters are mainly well-educated people.
Most commonly used 3D printers: The most commonly used 3D printer was RepRap, with MakerBot as the close second.
Usage of 3D printing services: The most-used 3D printing service was Shapeways. Others, like i.materialise and Ponoko, were not commonly used. The largest response to this question was “none”, which suggests that these 3D printing services have a long road ahead in terms of driving awareness.
Read the full report at PeerProduction.net.
Here is a video by Stephen Murphey visualizing the results.
3D Printing Coming to a Public Library Near You: Nevada First
As 3D printing becomes more popular among consumers, we expect 3D printers to become more ubiquitous and available to the public. That transition is finally starting to occur, with the University of Nevada engineering library now the first in the nation to offer 3D printing resources to the public.
“We’ve brought the technology out of the lab and into access for all students,” Tod Colegrove, director of the DeLaMare library, said. “It’s a first for universities around the country where the machines are typically part of a specialized program or research lab.”
Using specialized software, the machine builds a three-dimensional plastic model from computerized drawings.
“3D printers are typically purchased by a faculty member with grant funds in support of a particular research project, and installed in isolated departmental locations,” Colegrove said. “Printers remain largely inaccessible to students and faculty outside of a select few. We’ve changed that.”
“In the arts, sciences and engineering, breakthroughs in learning or research often require going beyond pencil and paper,” he said. “With technology and a supportive environment, it becomes possible to breathe life into ideas – in the library. We have a waiting list for projects, which can take anywhere from 40 minutes to 40 hours, depending on the complexity.
Via KTVN.
3D printing photo by DSTL UNR used under Creative Commons license.
Video: Maker Faire Bay Area Interviews About 3D Printing
Steve Tung brought his camera to the Maker Faire Bay Area this year and has produced a video focused on 3D printing.
Interviews include:
- Lis Sampson, founder of 3D-Bots
- Carine Carmy, Director of Marketing at Shapeways
- Ronald Rael, Professor of Architecture at UC Berkeley
A variety of materials were discussed, from plastic to ceramics to cement to wood to salt.
And Steve shows RepRap printers that can even print their own parts.
Watch the full video below.
