Small Empires (The Verge) on Shapeways
Sabtu, 31 Agustus 2013
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I always wanted to know, how much better a professional 3D scanner is, compared to my cool Carmine 1.09. You can use the 3D scanning Software Artec Studio with both entry-Level 3D Scanners like the Carmine 1.09, or Kinect and professional 3D Scanners like Artec Eva, or Artec Spider. Therefore I used this software to give you an impression what you can do with hobby scanners and what is possible with professional 3D scanners.
Please have a look at the amazing interactive 3D model from the Artec Eva scanner at: http://viewshape.com/shapes/7tckylse0l8
To get more information about 3D scanning, please have a look at:
www.diy3dscan.com and www.virtumake.com
Please note that this skateboard is an art piece and not really for actually using. It is rideable, but as I'm sure you can see workout, it's not anywhere near the strength and pop of a good old 9 ply Canadian maple deck. This is not a comercial product and we're not saying that we're becoming the first company to manufacture 3D printed skateboards. That would be silly.**
www.3dprint-uk.co.uk - Sam Abbot is one skilled fella - he won our competition that we co-hosted with CGTrader last month. Sam won best the best portfolio catagory due to his plethora of awesome designs. We then had a few weeks of fun making his skateboard..... it wasn't quite as strait forward as just a print as the board is longer than our build tray, meaning that we had to cut it into 3 sections, joining it together with some connector pins to ensure accuracy and to give it some strength over a simple butt joint. The final result..... the worlds first 3d printed twin tip skateboard.
.... is it ride-able? Yes... but I wouldn't drop down many sets of stairs on it just yet!
FABtotum is a multipurpose tool, the first Low Cost Desktop Personal Fabrication device that can operate a wide range of Computer controlled (CNC) manufacturing processes.
Print, Cut, Mill, Scan, Manipulate. Rinse and repeat!
A seamless interaction between the physical and the digital world.
While Current 3D printers are defined as Personal fabricators, there is so much more to personal fabrication than 3d printing alone! FABtotum allows anyone to explore the endless possibilities of a multipurpose fabrication device.
Thanks to a sturdy structure and unconventional tecnical solutions FABtotum is capable of subtractive machining without compromising 3d printing volumes or printing speeds.
Switching to subtractive mode is easy: just remove and tilt the double sided printing plane and expose the milling plane with built in fixtures to secure your workpiece.
Along with 3/4 Axis Subtractive Machining, Fabtotum is capable of 3-axis hybrid Additive / Subtractive manufacturing, meaning you can work in dual mode without loosing the position or having to move the workpiece.
- 3D milling on light materials (Balsa, Foam, light wood)
- PCB milling : make your own circuit boards!
- Engraving
- 2.5 D Profiling (cutting) on light materials (balsa,Foam,Light wood)
- CNC Pre-Drilling
- 4 Axis machining on light materials.
Digital Aquisition:
- 4 Axis Engraving
FABtotum is capable of scanning solid objects thanks to a built in laser scanner (quick scan, medium quality) and one dimension (Z) touch probe digitalizer (hi-accuracy, very slow).
Using this feature you'll be able to unlock a whole lot of potential: scan and print duplicates of solid objects, create new objects with foams or modeling clay and scan them for further editing in a modeling software of choice, or print them in additive mode or cut/mill in subtractive mode.
Most 3d scanners cannot acquire small objects (such as a coin) and a physical digitalizer cannot acquire complex objects without at least 4 axis of freedom.
FABtotum can do both.
Scanning objects means you'll never run out of stuff to print, you'll be able to experiment with shapes or reverse-engineer objects around you, scanning and then duplicating a modified version!
We're revolutionizing personal manufacturing with this amazing all-in-one, networkable, four-color 3D printer and milling machine!
Makers making for makers: The Microfactory project began one year ago when four friends, longtime members of an independent maker space in Somerville, Massachusetts called Artisans Asylum, came together to create a better prototyping and machining tool....one that was easy to use, self-contained, and capable of a truly impressive list of tasks. They independently financed the development and testing of five full versions of the Microfactory, resulting in the exceptional product featured here. The Microfactory was entirely conceived, designed and built by people who have spent their lives around machines, who wanted to make something truly revolutionary and highly usable for makers everywhere.
Introducing the Microfactory: a networked, easy to operate, affordable, mess free, quiet, safe and fully-enclosed machine capable of:
printing functional parts in four colors or multiple materials
AND computerized etching
AND computer-controlled milling!
And check out some of the special features we've built in:
Port for a shop-vac hose so the machine "cleans up after itself" while it runs
Noise-reducing housing with safety-stop button
Full on-board computer -- no separate hardware or software needed! Connect and control through any (wired) network.
High-quality industry standard software built right in
Printing on a LulzBot Taz. The two pieces that you see are an Explosive Nitrons from the game Tribes: Ascend.
Both were printed with the same settings. The one on the left was printed in an enclosure and the one on the right was printed outside(inside a garage, outside of an enclosure). It is a little hard to tell but there are actually a lot of cracks on the non-enclosure part.
The enclosure looks like shit but as you can see, it works. Took me about 1.5 hours to build and about $40.00 bucks to build. Almost all of that money went to the poly carbonate front window. I only used half of what I bought so really, its about 20 bucks.
CellStruder is a 20mL syringe extruder powered by a NEMA stepper motor, capable of of precise liquid extrusion at the microliter level. Originally developed in Jeff Tabor's lab at Rice University, this device is currently being used for cell printing, enabling research in synthetic biology, biological pattern formation and engineering of cellular logic. An example print of E. coli cells expressing green fluorescent protein is shown above as well as microscopy of printed cells.