Difference between revisions of "Additive manufacturing"
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{{turning into real objects navbar}} | {{turning into real objects navbar}} | ||
− | [[Image:Eden330.jpg| | + | [[Image:Eden330.jpg|180px|right]] |
− | '''Rapid prototyping machines''' are like three dimensional printers that turn virtual designs on a computer into solid objects, by building up extremely thin cross-sectional layers, | + | '''Rapid prototyping''' and '''additive manufacturing machines''' are like three dimensional printers that can turn virtual designs on a computer into solid objects, by building up extremely thin cross-sectional layers, using polymers and more recently metals, built one at a time on top of each other. This is known generically as additive fabrication or additive manufacturing in contrast to CNC milling which is a subtractive process, starting from a larger solid block of material. |
Currently they are used mostly in industry to create accurate parts for developmental designs and prototypes. But they are increasingly being used in short manufacturing runs and is known in this circumstance as ''rapid manufacturing''. | Currently they are used mostly in industry to create accurate parts for developmental designs and prototypes. But they are increasingly being used in short manufacturing runs and is known in this circumstance as ''rapid manufacturing''. | ||
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There will likely be a convergence of multi-tool rapid-prototyping machines and the shrinking of multi-machine fablabs, allowing sopisticated digital manufacturing from a single desktop device. | There will likely be a convergence of multi-tool rapid-prototyping machines and the shrinking of multi-machine fablabs, allowing sopisticated digital manufacturing from a single desktop device. | ||
− | ==[[RepRap]] | + | ==[[RepRap]]== |
{{:RepRap}} | {{:RepRap}} | ||
+ | {{clean break}} | ||
− | == | + | === Some RepRap variants: === |
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− | + | {| border="1" cellpadding="5" cellspacing="0" | |
+ | |<big><b>Makerbot</b></big> | ||
+ | |<big><b>Ultimaker</b></big> | ||
+ | |<big><b>Printrbot</b></big> | ||
+ | |<big><b>3D Touch</b></big> | ||
+ | |- | ||
+ | |valign=top|[[Image:Cupcake-cnc-final.jpg|150px|thumb|left|Makerbot's Cupcake]] | ||
+ | |valign=top|[[Image:Ultimaker2.jpg|200px|thumb|left|Ultimaker]] | ||
+ | |valign=top|[[Image:Printrbot.jpg|200px|thumb|left|Printrbot]] | ||
+ | |valign=top|[[Image:3DTouch.jpg|200px|thumb|left|3D Touch]] | ||
+ | |- | ||
+ | |valign=top|Makerbot's Cupcake CNC machine is an open-source 3D printer inpired by and partly based on RepRap. Kits are available to buy between $750 and $950 depending on how much assembly you want to do yourself [http://www.makerbot.com Makerbot website]. [http://www.thingiverse.com Thingyverse] - an online repository of 3D objects you can print, started by the guys at Makerbot | ||
+ | |valign=top|http://blog.ultimaker.com | ||
+ | |valign=top|http://printrbot.com [http://www.kickstarter.com/projects/printrbot/printrbot-your-first-3d-printer?ref=card Kicker starter page for Printrbot] | ||
+ | |valign=top|http://www.bitsfrombytes.com/content/3dprinters | ||
+ | |} | ||
− | ==[[Fab@Home]]== | + | == [[Fab@Home]] == |
{{:Fab@Home}} | {{:Fab@Home}} | ||
{{clean break}} | {{clean break}} | ||
− | ==Solid metal objects== | + | == Solid metal objects == |
As well as {{wp|CNC|CNC machines}} which employs ''subtractive fabrication'' there are various ''additive fabrication'' techniques emerging to create fully dense and strong metal parts straight from a CAD model. | As well as {{wp|CNC|CNC machines}} which employs ''subtractive fabrication'' there are various ''additive fabrication'' techniques emerging to create fully dense and strong metal parts straight from a CAD model. | ||
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<small>Images from http://www.arcam.se</small> | <small>Images from http://www.arcam.se</small> | ||
− | == Handling parts == | + | === 3D printed (DMLS) rocket motor === |
+ | |||
+ | [[Image:Unreasonable rocket.JPG|300px|thumb|Stainless steel rocket motor chamber]] | ||
+ | Paul Breed from [http://unreasonablerocket.blogspot.com Unreasonable Rocket] is attempting to create a Direct Metal Laser Sintered (DMLS) rocket motor with the aim of powering a real hydrogen peroxide fuelled rocket with it. See [http://unreasonablerocket.blogspot.com/2010/07/more-printed-motor-progress.html here] and half-way down the page [http://unreasonablerocket.blogspot.com/2010_09_01_archive.html here] for more images. Paul has form having previously flown a serious piece of hardware called 'Blue Ball' (a VTOL rocket-powered lander) in the Northrup Grumman Lunar Lander Challenge. Although they failed the competition rules, I would argue it was a pretty successful flight - judge for yourself {{video icon}} [http://www.youtube.com/watch?v=JXwsRJzI8vE&NR=1 here]. | ||
+ | {{clean break}} | ||
+ | |||
+ | == The Future == | ||
+ | |||
+ | [[Image:Hair.jpg|thumb|300px|two-photon polymerization/lithography employed to construct the word hair in 3D built upon a human hair]] | ||
+ | * Higher and higher resolution parts (two-photon polymerization/lithography) [http://www2.chem.umd.edu/groups/fourkas/research.html] [http://www.tuwien.ac.at/en/news/news_detail/article/7444] {{film icon}} [http://www.youtube.com/watch?v=5y0j191H0kY] | ||
+ | * Multi-material (already here on some models) | ||
+ | * Integrating circuitry into the build | ||
+ | * Integrating off-the-shelf components into the build | ||
+ | * Integrating subtracting and additive manufacturing processes into the same device. Multi-axis milling capability during an additive build giving very smooth surfaces inside and out during the build process | ||
+ | * Human organs (already being done for simple organs like bladders) [http://www.economist.com/node/15543683] {{film icon}} [http://blog.ted.com/2011/03/07/printing-a-human-kidney-anthony-atala-on-ted-com TED talk on printing organs] | ||
+ | [[Image:Printed bladder.jpg|Printed human bladder|thumb|left|300px]] | ||
+ | {{clean break}} | ||
+ | |||
+ | === Handling parts === | ||
Current prototyping machines typically manufacture one part with one process, and then require a human to pull that part out, do any final finishing, and any further assembly. | Current prototyping machines typically manufacture one part with one process, and then require a human to pull that part out, do any final finishing, and any further assembly. | ||
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== Keywords == | == Keywords == | ||
− | Additive fabrication | + | Additive fabrication, 3D printing |
{{pagebgend}} | {{pagebgend}} |
Latest revision as of 18:02, 8 July 2012
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