Fab lab: Difference between revisions
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A '''Fab Lab''' (fabrication laboratory) is a small-scale workshop with computer controlled tools with the aime to make "almost anything". ([http://en.wikipedia.org/wiki/Fablab Wikipedia]). | A '''Fab Lab''' (fabrication laboratory) is a small-scale workshop with computer controlled tools with the aime to make "almost anything". ([http://en.wikipedia.org/wiki/Fablab Wikipedia]). | ||
Fab labs can have different aims, e.g. rapid prototyping or low cost and on-demand manufacturing. Both purposing would include an idea of empowering individuals to create devices that are adapted to specific needs. The [http://www.fabathome.org/wiki/index.php?title=Fab%40Home:Overview Fab@Home project] emphasizes freedom of design and innovation: | Fab labs can have different aims, e.g. rapid prototyping or low cost and on-demand manufacturing. Both purposing would include an idea of empowering individuals to create devices that are adapted to specific needs. The [http://www.fabathome.org/wiki/index.php?title=Fab%40Home:Overview Fab@Home project] emphasizes freedom of design and innovation of a Solid Freeform Fabrication system: | ||
{{quotationbox|Universal manufacturing embodied as today’s freeform fabrication systems has – like universal computers – the potential to transform human society to a degree that few creations ever have. The ability to directly fabricate functional custom objects could transform the way we design, make, deliver and consume products. But not less importantly, rapid prototyping technology has the potential to redefine the designer. By eliminating many of the barriers of resource and skill that currently prevent ordinary inventors from realizing their own ideas, fabbers can “democratize innovation” [1,2,3]. Ubiquitous automated manufacturing can thus open the door to a new class of independent designers, a marketplace of printable blueprints, and a new economy of custom products. Just like the Internet and MP3’s have freed musical talent from control of big labels, so can widespread RP (Rapid Prototyping) divorce technological innovation from the control of big corporations. | {{quotationbox|Universal manufacturing embodied as today’s freeform fabrication systems has – like universal computers – the potential to transform human society to a degree that few creations ever have. The ability to directly fabricate functional custom objects could transform the way we design, make, deliver and consume products. But not less importantly, rapid prototyping technology has the potential to redefine the designer. By eliminating many of the barriers of resource and skill that currently prevent ordinary inventors from realizing their own ideas, fabbers can “democratize innovation” [1,2,3]. Ubiquitous automated manufacturing can thus open the door to a new class of independent designers, a marketplace of printable blueprints, and a new economy of custom products. Just like the Internet and MP3’s have freed musical talent from control of big labels, so can widespread RP (Rapid Prototyping) divorce technological innovation from the control of big corporations. (retrieved 18:47, 23 June 2009 (UTC))}} | ||
The first Fab Lab emerged at MIT under the direction of N. Gershenfeld. It included a laser cutter, a miniature milling machine and jigsaw cutting machine. | |||
== History == | == History == | ||
| Line 24: | Line 24: | ||
: Dr. Mohamed Hashish created a technique to add abrasives to the water jet cutter | : Dr. Mohamed Hashish created a technique to add abrasives to the water jet cutter | ||
; | ; 2005, Neil Gershenfeld's et al. MIT class [http://fab.cba.mit.edu/classes/MIT/863.04/ 863.04 - how to make (almost) anything]. | ||
; 2007, Neil Gershenfeld and Joe Jacobson MIT class [http://fab.cba.mit.edu/classes/MIT/960.07/ How To Make Something That Makes (almost) Anything]. | |||
== Technology == | == Technology == | ||
=== 3D printers === | |||
3D pinters also called or '''rapid prototype machines''' are are a relatively new form of manufacturing that builds 3D objects by carefully depositing materials drop by drop, layer by layer. | |||
Low-cost non-proprietry 3D printers are ofter called '''Fabbers'''. | |||
=== Cutters === | === Cutters === | ||
| Line 37: | Line 45: | ||
; Water jet cutter | ; Water jet cutter | ||
: {{quotation|A water jet cutter is a tool capable of slicing into metal or other materials using a jet of water at high velocity and pressure, or a mixture of water and an abrasive substance. The process is essentially the same as water erosion found in nature but greatly accelerated and concentrated. It is often used during fabrication or manufacture of parts for machinery and other devices}} ([http://en.wikipedia.org/wiki/Water_jet_cutter Wikipedia], retrieved 18: | : {{quotation|A water jet cutter is a tool capable of slicing into metal or other materials using a jet of water at high velocity and pressure, or a mixture of water and an abrasive substance. The process is essentially the same as water erosion found in nature but greatly accelerated and concentrated. It is often used during fabrication or manufacture of parts for machinery and other devices}} ([http://en.wikipedia.org/wiki/Water_jet_cutter Wikipedia], retrieved 18:47, 23 June 2009 (UTC).) | ||
According to [http://en.wikipedia.org/wiki/Water_jet_cutter Wikipedia], | According to [http://en.wikipedia.org/wiki/Water_jet_cutter Wikipedia], | ||
| Line 46: | Line 54: | ||
A milling machine (fr. "fraiseuse") is a machine tool used for the shaping of metal and other solid materials. It uses rotating cutters to cut stuff from a workpiece. In more sophisticated milling machines, both the cutters and the workpiece can be rotated in three axis. | A milling machine (fr. "fraiseuse") is a machine tool used for the shaping of metal and other solid materials. It uses rotating cutters to cut stuff from a workpiece. In more sophisticated milling machines, both the cutters and the workpiece can be rotated in three axis. | ||
== Links == | == Links == | ||
=== Fab Labs and rapid prototyping === | === Fab Labs and rapid prototyping === | ||
* [http://fab.cba.mit.edu/ FabCentral], The Center for Bits and Atoms, MIT. | |||
** [http://fab.cba.mit.edu/about/faq/ Fab Lab FAQ], MIT. (includes further pointers). | |||
* [http://www.economist.com/science/displayStory.cfm?story_id=3786368 Desktop manufacturing - Helping poor-world inventors], The Economist, Mar 23 2005. | * [http://www.economist.com/science/displayStory.cfm?story_id=3786368 Desktop manufacturing - Helping poor-world inventors], The Economist, Mar 23 2005. | ||
| Line 81: | Line 87: | ||
* [http://www.fabathome.org/ Fab@Home], is a project dedicated to making and using fabbers - machines that can make almost anything, right on your desktop. This website provides everything you need to know in order to build or buy your own simple fabber, and to use it to print three dimensional object. Hardware designs and software on this website are [[open source]]. | * [http://www.fabathome.org/ Fab@Home], is a project dedicated to making and using fabbers - machines that can make almost anything, right on your desktop. This website provides everything you need to know in order to build or buy your own simple fabber, and to use it to print three dimensional object. Hardware designs and software on this website are [[open source]]. | ||
== Bibliography == | |||
* Burns M., (1995) The Freedom to Create, in Technology Management, Volume 1, Number 4 http://www.ennex.com/~fabbers/publish/199407-MB-FreedomCreate.asp | |||
* Gershenfeld N., (2005) FAB: The Coming Revolution on Your Desktop – From Personal Computers to Personal Fabrication, Basic Books. | |||
* Editors' Review (2005). ''Desktop Factories - FAB The Coming Revolution on Your Desktop -- from Personal Computers to Personal Fabrication By Neil Gershenfeld, Basic Books'', Business Week, May 2 2005. | |||
* Gershenfeld N. ''Think Globally, fabricate locally'', PrincipalVoices.com. [http://ng.cba.mit.edu/dist/PV.pdf PDF] (reprint) | |||
* Jenweill, Mark, ''Fab Labs unshackle imaginations'', USA Today, 11/6/2005. | |||
* Lipson H. (2005) "Homemade: The future of Functional Rapid Prototyping", IEEE Spectrum, feature article, May 2005, pp. 24-31 http://www.mae.cornell.edu/ccsl/papers/Spectrum05_Lipson.pdf | |||
# Bowyer A., RepRap: The Replicating Rapid-Prototyper, http://reprap.org | |||
[[Category:Hardware]] | [[Category:Hardware]] | ||
Revision as of 19:47, 23 June 2009
This article or section is currently under construction
In principle, someone is working on it and there should be a better version in a not so distant future.
If you want to modify this page, please discuss it with the person working on it (see the "history")
Introduction
A Fab Lab (fabrication laboratory) is a small-scale workshop with computer controlled tools with the aime to make "almost anything". (Wikipedia).
Fab labs can have different aims, e.g. rapid prototyping or low cost and on-demand manufacturing. Both purposing would include an idea of empowering individuals to create devices that are adapted to specific needs. The Fab@Home project emphasizes freedom of design and innovation of a Solid Freeform Fabrication system:
Universal manufacturing embodied as today’s freeform fabrication systems has – like universal computers – the potential to transform human society to a degree that few creations ever have. The ability to directly fabricate functional custom objects could transform the way we design, make, deliver and consume products. But not less importantly, rapid prototyping technology has the potential to redefine the designer. By eliminating many of the barriers of resource and skill that currently prevent ordinary inventors from realizing their own ideas, fabbers can “democratize innovation” [1,2,3]. Ubiquitous automated manufacturing can thus open the door to a new class of independent designers, a marketplace of printable blueprints, and a new economy of custom products. Just like the Internet and MP3’s have freed musical talent from control of big labels, so can widespread RP (Rapid Prototyping) divorce technological innovation from the control of big corporations. (retrieved 18:47, 23 June 2009 (UTC))
The first Fab Lab emerged at MIT under the direction of N. Gershenfeld. It included a laser cutter, a miniature milling machine and jigsaw cutting machine.
History
- 1940's
- Birth of numerical control, i.e. machine tools controlled by code.
- mid 1950's
- Birth of special purpose programming languages for computer numerical controlled (CNC) machine tools.
- end 1950's - mid 1960's
- Birth of interfaces of Computer-Aided Design with CNC.
- 1970
- Dr. Mohamed Hashish created a technique to add abrasives to the water jet cutter
- 2005, Neil Gershenfeld's et al. MIT class 863.04 - how to make (almost) anything.
- 2007, Neil Gershenfeld and Joe Jacobson MIT class How To Make Something That Makes (almost) Anything.
Technology
3D printers
3D pinters also called or rapid prototype machines are are a relatively new form of manufacturing that builds 3D objects by carefully depositing materials drop by drop, layer by layer.
Low-cost non-proprietry 3D printers are ofter called Fabbers.
Cutters
- Laser cutters
- Plasma cutters
- Water jet cutter
- “A water jet cutter is a tool capable of slicing into metal or other materials using a jet of water at high velocity and pressure, or a mixture of water and an abrasive substance. The process is essentially the same as water erosion found in nature but greatly accelerated and concentrated. It is often used during fabrication or manufacture of parts for machinery and other devices” (Wikipedia, retrieved 18:47, 23 June 2009 (UTC).)
According to Wikipedia, water jets can cut with a with of about 1mm and can cut materials such as rubber, foam, plastics, composites, stone, glas, tile, metals, food, paper and much more. Also, water jets can cut material without much harming or changing the materials' structures since there is no heat. I also can be considered a green technology, since it doesn't produce harmful waste. Water and abrasives can be recycled.
CNC mills
A milling machine (fr. "fraiseuse") is a machine tool used for the shaping of metal and other solid materials. It uses rotating cutters to cut stuff from a workpiece. In more sophisticated milling machines, both the cutters and the workpiece can be rotated in three axis.
Links
Fab Labs and rapid prototyping
- FabCentral, The Center for Bits and Atoms, MIT.
- Fab Lab FAQ, MIT. (includes further pointers).
- Desktop manufacturing - Helping poor-world inventors, The Economist, Mar 23 2005.
Hardware hacking / modified objects
Numerical control
- Numerical control (Wikipedia)
Hardware
- Water jets
- CNC mills
- 3D printers
- Fab@Home, is a project dedicated to making and using fabbers - machines that can make almost anything, right on your desktop. This website provides everything you need to know in order to build or buy your own simple fabber, and to use it to print three dimensional object. Hardware designs and software on this website are open source.
Bibliography
- Burns M., (1995) The Freedom to Create, in Technology Management, Volume 1, Number 4 http://www.ennex.com/~fabbers/publish/199407-MB-FreedomCreate.asp
- Gershenfeld N., (2005) FAB: The Coming Revolution on Your Desktop – From Personal Computers to Personal Fabrication, Basic Books.
- Editors' Review (2005). Desktop Factories - FAB The Coming Revolution on Your Desktop -- from Personal Computers to Personal Fabrication By Neil Gershenfeld, Basic Books, Business Week, May 2 2005.
- Gershenfeld N. Think Globally, fabricate locally, PrincipalVoices.com. PDF (reprint)
- Jenweill, Mark, Fab Labs unshackle imaginations, USA Today, 11/6/2005.
- Lipson H. (2005) "Homemade: The future of Functional Rapid Prototyping", IEEE Spectrum, feature article, May 2005, pp. 24-31 http://www.mae.cornell.edu/ccsl/papers/Spectrum05_Lipson.pdf
- Bowyer A., RepRap: The Replicating Rapid-Prototyper, http://reprap.org