Search Results for: 3d printer
TangiBot has a Kickstarter Project for a Much Cheaper MakerBot

We have continued to review Kickstarter projects on 3D printing.
Here’s a new contenter. The TangiBot is a Makerbot Replicator clone. The same performance and features of The Replicator at a roughly 33% discount.
Why should you buy a TangiBot? Here’s what the Kickstarter page says:
Quite simply, because the TangiBot is a Makerbot Replicator clone, the TangiBot is the best 3D printer on the market with a very active community of owners. Here is a quick list of the benefits of buying a TangiBot:
- 2/3 the price of the Makerbot Replicator (discount of $550-700)
- The highest quality 3D printer
- The best features
- You can get it fully assembled and tested in Acrylic
- 100% compatible with all MakerBot Replicator Parts
- A very active community of owners
- Thousands of designs available to download online
- Design your own parts, toys, games, and models
TangiBot has raised $14,112 of its $500,000 goal with 24 days to go. Want to see TangiBot succeed? Visit the TangiBot Kickstarter project.
Fab Lab of the Week: Fab Lab Dublin Brings Ideas to Life in Ireland

This week’s featured Fab Lab is Fab Lab Dublin in Ireland, your own personal factory in the city with all the equipment and expertise to make it easier, faster, cheaper and more fun to create things. 3D printing is one of the key technologies at Fab Lab Dublin.
From their website:
We are a collective of designers, entrepreneurs and makers who are setting up Fab Lab Dublin. A Fab Lab is a digital fabrication lab equipped with computer-controlled machines like 3d printers, laser cutters, 3d scanners and precision milling machines. The lab acts as a personal factory in the city where you can design and produce your own inventions, prototypes and designer products.
Design and manufacture is fundamentally changing. Designs (physibles) can be shared digitally and collaborated on at a global scale. Manufacturing is being reinvented by the ability to ship digital data more efficiently than products. Digital information is now at the forefront of manufacture and design. A fab lab is equipped with computer-controlled tools that take digital data to create physical products. The lab includes technology-enabled products generally perceived as limited to mass production – meaning individuals can now compete with large-scale manufacture.
We want to empower individual designers, entrepreneurs and makers with access to the tools of invention. Fab Lab Dublin is a space where you can share your passions, designs and ideas. It is a space where collaboration and invention take place. Life is about the people you meet and the things you create with them. So come join us and share your passion.
Dublin recently hosted a mini Maker Faire. Here is a video showcasing some of the ideas at the faire.
Learn more about Fab Lab Dublin at their website, or follow them on Twitter @FabLabDublin.
See all of our featured Fab Labs in our weekly series.
Dublin at night photo by infomatique used under Creative Commons license.
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.
Fab Lab of the Week: Fablab Amsterdam in the Netherlands

This week’s featured Fab Lab is called Fablab Amsterdam in the Netherlands. They are offering classes on how to build your own 3D printer.
Fablab Amsterdam offers you the opportunity to build your personal 3D printer and learn all there is to know about 3D printing. After an introduction of the Fablab and the basics of 3D printing, you will learn how to set up a model for printing (day 1). In the next three days you will build your own printer, this is a model based on Orca (RepRap Mendel). On the last day (day 5) you will be printing your model(s) and get a hands-on troubleshooting on operating your 3D printer.
The summer school is available for maximum of 16 participants. You are to bring your own laptop and a 3D model, that you would like to print. Summer school only continues when it has at least 8 participants!
When? From 6 to 10 August 2012, 10.00 AM till 18.00 PM
Where? Fablab Amsterdam, Nieuwmarkt 4, 1012 CR Amsterdam
Learn more about Fablab Amsterdam from Fablab.nl or this article.
Fab Lab photo by TonZ used under Creative Commons license.
Fab Lab of the Week: Massey University Centre Hosts New Zealand Event

This week’s featured Fab Lab is Massey University’s College of Creative Arts and the Affect Research Centre, which is hosting a seminar in Wellington, New Zealand in collaboration with the MIT Center for Bits and Atoms.
Fab 8 NZ is the 2012 incarnation of the annual international Fab Lab meeting, bringing field practitioners and laboratory researchers from the international Fab Lab network and beyond, for a week of hands-on workshops and a one-day public symposium on the principles and applications of digital fabrication. For designers with some basic maker experience, there’s also a two-day “Fab Foo”, a chance to rub shoulders with the best in the world.
Expect talk on a mind-boggling array of subjects, from prototyping in outer space to 3D printing of human organs.
Among those attending the conference will be Fab Lab founder Professor Neil Gershenfeld, Director for the Center for Bits and Atoms at MIT. Professor Gershenfeld has been named one of Scientific American’s 50 leaders in science and technology, has been selected as a CNN/Time/Fortune Principal Voice, and by Prospect/FP as one of the top 100 public intellectuals.
Fab Labs were originally initiated as an outreach project from MIT, and provide widespread access to a modern means for invention through 3D printers that can make almost anything, and can be put to use in communities, businesses and industries around the globe.
Fab Labs have spread around the world from inner city Boston to rural India, incubating projects like solar and wind-powered turbines, thin-client computers and wireless data networks, analytical instrumentation for agriculture and healthcare, custom housing, and rapid-prototyping of rapid-prototyping machines.
Via idealog.









