http://wiki.gothpoodle.com/index.php?action=history&feed=atom&title=MinifacturingMinifacturing - Revision history2026-05-28T01:05:40ZRevision history for this page on the wikiMediaWiki 1.15.4http://wiki.gothpoodle.com/index.php?title=Minifacturing&diff=11826&oldid=prevEcb: Created page with 'Category:Technology This technology has partially replaced conventional brick-and-mortar distribution and retailing with “print on demand” goods. It is also one reason wh…'2012-07-26T18:12:22Z<p>Created page with '<a href="/index.php/Category:Technology" title="Category:Technology">Category:Technology</a> This technology has partially replaced conventional brick-and-mortar distribution and retailing with “print on demand” goods. It is also one reason wh…'</p>
<p><b>New page</b></p><div>[[Category:Technology]]<br />
This technology has partially replaced conventional<br />
brick-and-mortar distribution and retailing with<br />
“print on demand” goods. It is also one reason why small<br />
space colonies and moon bases are economically viable.<br />
<br />
The basis of minifacturing is advanced 3D printing.<br />
The first printers laid down a single 2D layer of ink on a<br />
sheet of paper. The new 3D devices deposit a wide variety<br />
of materials (such as liquid plastic, conductive and<br />
resistive ceramics, metal powders, powder-epoxy composites,<br />
or self-assembling nanostructures) in a 3D<br />
matrix, treating them with glue, heat, or laser sintering.<br />
<br />
The process begins with a digital map of the object’s<br />
geometry (generated by a computer-aided design program<br />
or digitized from an actual object by a 3D scanner).<br />
The design is then broken into volume pixel matrices that<br />
specify exactly which material the printer should deposit<br />
at each point in the design. The 3D printer then prints<br />
layer after layer until the real 3D object is formed.<br />
<br />
3D printers are able to produce very complex or<br />
durable materials (often lighter or stronger than those produced<br />
by conventional casting or forging), since it is simple<br />
for the layering process to arrange the microstructure<br />
of materials for maximum strength. If necessary, larger<br />
objects can also be made from multiple smaller modules,<br />
laser-cut to shape and welded or glued together. Although<br />
a multipurpose 3D printer can be expensive, the primary<br />
operating cost is licensing the software. The creation of<br />
complicated devices (such as a modern computer)<br />
requires programs of high complexity, as their construction<br />
can require hundreds of thousands (or more) of individual<br />
layers.</div>Ecb