Open-Source 3D Printer Lets Users Make Anything

An anonymous reader writes "Picture a 3D inkjet printer that deposits droplets of plastic, layer by layer, gradually building up an object of any shape. Fabbers have been around for two decades, but they've always been the pricey playthings of high-tech labs — and could only use a single material. A Fab at Home kit costs around $2400 and allows users to print anything from Hors d'Oeuvres to flashlights."

More Discussion

[eldavojohn]

You probably remember discussing this almost a year ago [slashdot.org]. Enjoy more on this at that coverage of the same story.

Any shape?

[Anonymous Coward]

Can it make a spider-shaped object? Specifically, one in which all of the feet touch the ground, but the torso and head of the spider are above the feet (suspended by the legs), and the knees of the legs are above the torso and head of the spider?

You can't make that layer-by-layer in a single pass. You have to make the feet first, go all the way up to the knees, and then back down to the body.

Can it do that?

Re:Any shape?

[LiquidCoooled]

You solve a problem like this by laying down sand or another substance to act as the free space and support the structure.
After building you remove the sand and your 3d model emerges.

Re:

[Spy der Mann]

Yes, but what about hollow objects, like an egg? Will the inside contain the "filler" sand?

Re:

[FishWithAHammer]

Yes, but what about hollow objects, like an egg?

Squeeze bulb? [fabathome.org]

Re:Any shape?

[jank1887]

commercial software with 'support material' will look at overhanging structures. If the vertical angle is larger than a set value (maybe 45degrees) it will build a support structure under it as it builds. If the angle is less than that (as in the aforementioned squeeze bulb) it will be considered a 'self supporting angle. Enough of the upper layer bead will be on top of the lower layer bead to prevent it from toppling. This usually takes a bit of intuition, however, because simple rules like this will let you build the leaning tower of Pisa at too steep an angle for it not to fall over. (shifting the center of mass outside the footprint)

Re:

[failedlogic]

This question is *not* helpful. Not only does it not help answer the riddle: "Which came first the chicken or the egg?", but now if one chooses 'egg' you have to now answer "Which came first the egg or the sand?".

Thanks a bunch pal! I'll remember you next time I try to print an egg. ;)

Re:

[Reality Master 101]

You can't make that layer-by-layer in a single pass. You have to make the feet first, go all the way up to the knees, and then back down to the body.

I don't think the point of this is that it can assemble anything. If it can make all the parts (possibly changing materials here and there) and then I have to do some minor assembly, that's good enough for me.

Re:

[mikael]

Yes, it can. And object inside objects too. These system typically work by having a container of liquid combined with a base that slowly moves down. A laser traced out the intersection of the object with an imaginary horizontal plane. This causes a chemical reaction that converts the liquid into solid. This layer will bind to the layer immediately below. So as the base moves slowly down, the intersecting plane moves up along the height of object.

I've seen the results of these systems. They could model ever

Re:

[jank1887]

Anything with a laser is much more expensive (with fewer material options) than what's being discussed here. You are referring to a Stereolithographic [wikipedia.org] process, primarily commercialized by 3D Systems, Inc. [3dsystems.com]. This group uses more of a heated extrusion, similar to the Fused Deposition Molding [wikipedia.org] process used by Stratasys, Inc. [stratasys.com] Even the liquid resins, though, have limits to degree of overhang permitted before the cured material will sag or fall in.

Re:

[Nefarious Wheel]

Good point. There has to be structure in that case, might be better to go left to right (invert the model 90 degrees) than bottom to top, i.e. print up a spider sideways. But if you use a fabber that uses laser hardening within a gel you have much better control of a 3D structure than you would with a layer-by-layer approach. In either case you can create very complex models very quickly, including internal hollow structures. Horses for courses.

Re:

[tiny-e]

Why not just "print" it upside-down, laying on it's back?

Re:

[ShieldW0lf]

Early 3d fabs for medical use used this method. They would, for example, recreate a broken skull from x-rays and let the doctor practice putting his hands in it before surgery.

I've been thinking of sinking the money into getting parts for a Rep-Rap [reprap.org]. These look nice though.

Re:More Discussion

[The_Mystic_For_Real]

The editors must have bought one of these for stories.

Re:

[TheBrutalTruth]

Thank you - this is indeed old news. However I love the extra exposure for the Fab@Home project - it's awesome. Also check out RepRap - http://reprap.org/bin/view/Main/WebHome [reprap.org]

Obvious use

[LightwaveNet]

Figured I'd save people from typing the search in...
http://www.google.com/search?hl=en&q=penis+3d+model&btnG=Google+Search [google.com]

I'm not convinced...

[Maltheus]

...until it can print another 3D printer.

Re:I'm not convinced...

[ZeroExistenZ]

I think they'll have some recursion protection inthere, to avoid the collapse of the universe.

Re:

[lastchance_000]

I'll get one when it can print "Tea, Earl Gray, hot."

Re:I'm not convinced...

[Ed Avis]

I'll get one when it can print something almost, but not quite, entirely unlike tea.

Re:

[lastchance_000]

... or a strong Brownian motion generator.

Re:

[davidsyes]

See this:

3D printer to churn out copies of itself

http://www.newscientist.com/article.ns?id=dn7165 [newscientist.com]

Re:

[PybusJ]

Then you ought to check out the RepRap project see:

http://reprap.org/ [reprap.org]

An open design from a project at the University of Bath. It has OSS control software and is specifically designed to be self replicating, using only 400 of materials.

Re:I'm not convinced...

[monopole]

Erm, Rep Rap [reprap.org]
I know, it won't fab everything but the few remaining bits are easy to get.

Re:

[ricree]

And at least according to the reprap website, the additional parts should only run about $500 or so dollars. They seem to have the instructions for a completed first version up on their website. I'd say that it's definitely worth checking out. http://reprap.org/bin/view/Main/RepRapOneDarwin [reprap.org]

Re:

[CarpetShark]

Actually, they're not. Yes, I tried. I used the new shop which is supposed to provide an even easier way to get components. Package arrived, and I realised later there were LOTS of parts missing, although I ordered everything I obviously needed on first read. Seeing the ACTUAL list of parts was a shock. It goes on forever. I gave up. RepRap is a LONG way from being usable by the average joe, and the RepRap team will probably tell you as much.

Re:

[Trogre]

The RepRap [wikipedia.org] project aims to do just that.

This is a truly worthwhile undertaking with remarkable possibilities - I wish more people would get behind it.

Re:

[sootman]

You're not the first one with that thought. [craphound.com]

Printcrime
by Cory Doctorow

Forematter:
This story is part of Cory Doctorow's 2007 short story collection "Overclocked: Stories of the Future Present," published by Thunder's Mouth, a division of Avalon Books. It is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 2.5 license, about which you'll find more at the end of this file.
This story and the other stories in the volume are available at:
http://craphound.com/overclocked [craphound.com]
You can buy Overclocked

Re:

[fractoid]

I'd be satisfied if it could just print me up a finite improbability generator.

Obviously you don't have any trouble getting invites to 'those' sorts of parties, then! ;)

Re:

[ConceptJunkie]

Yes, but not without the hostess herself taking a step to the left.

Alas, slashdotted

[Mad Bad Rabbit]

Apparently it won't let them print more servers

Gives new meaning to

[davidsyes]

"This printer prints like... SHIT."

in other news...

[plasmacutter]

the plastic storage container manufacturers of america have sent out their subpoena's against the first batch of kids "stealing" their products.

Re:

[CarpetShark]

For anyone who thinks that's a joke... just wait. These things are going to change the world once they become usable. Instead of waiting for amazon to ship stuff, you'll be buying patterns and printing them out. Many more people will probably be downloading patterns for all sorts of patented stuff, from the likes of piratebay. You think the recording industry has issues? Wait 'till the car parts industry, the wooly sweater industry, and yes, the kids toy industry all get on board. We already know Disne

Throw some Chinese out of work for a change!

[tjstork]

Could make toys on demand!

Re:

[Anonymous Coward]

"Throw some Chinese out of work for a change!"

Only if it puts lead in everything it prints.

It could be very useful

[paladinwannabe2]

I've always thought something like this could be awesome for all sorts of geeky pastimes. Need an army for Warhammer 40k? Need a horde of orcs for D&D? Missing a piece to your favorite board game? You can print out an army, toss them back, then print out a new one the next day.

Re:

[geekoid]

"Warhammer 40k?"

I can picture there board room now:
"Did anyone else fell a tremor in the market just now?"

Re:

[ultranova]

I've always thought something like this could be awesome for all sorts of geeky pastimes. Need an army for Warhammer 40k? Need a horde of orcs for D&D? Missing a piece to your favorite board game? You can print out an army, toss them back, then print out a new one the next day.

Yes, and you can print Magic the Gathering cards with current 2D printers. Can you actually use them to play against other people, thought ?

Anyway, what would be really awesome would be to use a mapping software to make a ca

Re:

[dhasenan]

Yes; you need to print them on card stock, though, and they won't be shiny with most paper that you use (and the ink will run on the shiny paper if you're not careful).

You also need to have some care in aligning the front and back parts, and if you want a good product, corners will be a bit difficult.

It's more trouble than it's worth to most people, though. But if you had a good printer with an attached cutter and you could just click a few buttons to print out your desired deck, you'd see that happening ra

Re:

[Belial6]

That's because Magic the Gathering is a game designed to test the financial fortitude of its players, where as D&D is a game about swords and sorcery.

Re:

[Trogre]

A 3D printer that lets you manufacture damn near anything you want, and you're talking D&D figurines?

I don't want to be unkind and ask if you get out much, but surely we can think of better used for this.

Re:

[tjstork]

A 3D printer that lets you manufacture damn near anything you want, and you're talking D&D figurines? I don't want to be unkind and ask if you get out much, but surely we can think of better used for this

Yeah, you are right too. You could also have a whole fleet of Star Trek Universe ships if you want to play a SCI-FI Genre, rather than Fantasy...

Re:

[Kingrames]

Warhammer 40K, hardcore mode.

Every time a piece gets wounded, you trash it up. when it dies you torch it.

Re:

[davidsyes]

Once again, pr0n will probably lead the way. Need a prophylactic? DOWNLOAD these specs and BANG! Shazzam! You can have all the private fun you can print.

Not, that'll lead to INcursion protection.

Oh!

[Bryansix]

Dang, I thought this was a dupe but then I remembered that I read it in Popular Mechanics weeks ago in print. The idea is very cool and hopefully the price for Fabbers will fall even more. I'm wondering though, can this thing lay out designes that have 90 degree turns in them? How would it lay down plastic on air?

Re:

[Bryansix]

Oh! In that case I'm totally getting a fabber. I could make all kinds of neat things with it. Like tools or another drawer hold (The one for my kitchen drawer at home broke).

material

[deander2]

very neat, but it seems like they're hampered by materials. (silicone adhesive is the most permanent of what i've seen with these types of machines) does anyone have any recommendations for more permanent but still liquidish-at-deposition options? plaster of paris? ultra-fine concrete?

Re:

[plasmacutter]

two part epoxy resin.

it's suitably viscous, dries rather quickly, and its stiff flexibility makes it virtually indestructible.

Do remember to have the nozzels flushed with something more easily removed, like hot glue, after each pass.

Re:

[mollymoo]

Epoxy, with stuff (fibres, micro balloons...) added to provide appropriate mechanical properties. You'd probably want some mechanism to mix it on demand so you can use fast curing epoxy.

Re:

[Registered Coward v2]

I saw one for military use that liquefied metal and deposited it in fine drops to build up a final piece. It was intended to build replacement parts in theatre so they didn't have to be shipped. The machine size was about that of a washing machine, and the company claimed it parts were as good as a machined original. You had to machine the final piece to get a usable say disk brake rotor but still very impressive.

Re:

[Trogre]

The RepRap project, while currently using Polycaprolactone, aims to eventually move over to polylactic acid from corn starch or sugar cane.

Print a mold, plus Lost Wax casting

[StefanJ]

I'd like to see a mode that allows the fab printer to automatically plot a mold for an object. You could then use the mold to create copies from more durable plastic.

Or . . . offer a special easy-to-melt plastic "ink" so you can use the fab to create the forms for lost-wax casting. That way you can make molds for metal objects.

Re:

[dbIII]

Buying it for lost wax casting? Now that's what I call a cast iron investment!

It's just a bad pun for engineers - move along and don't make eye contact with the greasy Moorlocks.

That's pretty cool...

[replicant108]

But just imagine there was a project for an open source self-replicating machine ...

"[RepRap] has been called the invention that will bring down global capitalism, start a second industrial revolution and save the environment..." [wikipedia.org]

Re:That's pretty cool...

[PayPaI]

With wording like that you'd think they were making another Segway.

Yeah...

[Enderandrew]

Yeah, but does it run Linux?

Make machine that can fab other products.
Make fab that can fab other fab machines. ...
Profit!!!

I for one, welcome our new fab overlords.

I think I got them all out of my system. Those jokes never get old, in fact I think they are quite fab!

Re:

[veganboyjosh]

On slashdot, YOU fab soviet russia jokes!

Re:

[Enderandrew]

How could I forget?

In Soviet Russian, printer fabs you!

Re:

[drcagn]

Imagine a beowulf cluster of these... you could fab buildings and cars!

Manufacturing is a solved problem

[mi]

This is just an illustration, that manufacturing is a solved problem. Design, research, and development is where the minds and ideas are or should be going.

The growing emphasys on the Intellectual Property — the kind, that can be stolen by simple copying (thus leaving the original owner, seemingly, unhurt) — is another illustration of the same trend, like it or not.

Re:Manufacturing is a solved problem

[PieSquared]

No it isn't. We still have one really major step to take (that we can see from here/now). Molecular level construction. I don't mean nano-tolerance specs for things this could print, but by building things at the molecular level you finally get the ability to do self-replication. Right now the problem is that you need a scale - if you have a stick you use to measure things by, you add to the error of *every* measurement with each generation... which prevents self-replication. If you use a molecule (or some universal constant) as your stick, though, you lose this problem... stack a certain number of molecules into a stick of a useful size, or use the speed of light (in some medium) to measure distance for your "unit length" as part of the replication process and you'll have the same error in every generation. We already do this for manual manufacture... just, because we don't try to make self-replicating fabricators, we only have to measure (using the standard of the speed of light in a vacuum) once every few years to replace the "standard" used in manufacturing rulers.

Molecular level construction could also be useful for, obviously, building really small things. Or for building really big things semi-automatically.

Once you can spec the atomic placement in manufacture.... *then* there will be no need for brains in manufacturing. That we can understand today. Who knows, maybe there is something useful beyond that level that we just don't understand yet. But for now this is the one major step left in the ability to manufacture things.

Re:

[mi]

No it isn't. We still have one really major step to take (that we can see from here/now). Molecular level construction. I don't mean nano-tolerance specs for things this could print, but by building things at the molecular level you finally get the ability to do self-replication.

I did not say, this device itself is the solution to the problem of manufacturing. I said, it is an illustration of the problem being solved. Surely, it is still cumbersome to produce many things, but it has all been reduced, pret

Re:Manufacturing is a solved problem

[MrSteveSD]

Right now the problem is that you need a scale - if you have a stick you use to measure things by, you add to the error of *every* measurement with each generation... which prevents self-replication.

It's not just that. Because we can't yet build at the molecular level, we have created all sorts of diverse and complex ways of achieving what we want using bulk processes. The diversity of these means that we need hundreds of huge factories to make all the components for a typical piece of gadgetry. So for example, if a hand-held video camera breaks on a future base on Mars, there is no way they can make another one without thousands of square miles of factories and thousands of workers to produce the components they need. With molecular level manufacturing, you eliminate the necessity of needing a huge set of factories.

With a molecular manufacturing machine, building something would be a case of having the required data file. I should imagine that there would be a vibrant open-source community designing all sorts of weird and wonderful things which you could download and "print". The potential of such a technology is enormous. There will be all sorts of issues to consider though. How do you prevent people from "printing" hand grenades and machine guns or Sarin?

If you are interested in this sort of thing, you should read "Engines of Creation" by Eric Drexler which is a non fiction book that explores these ideas. Drexler is the guy who coined the term "Nanotechnology" back in the 80s. You can read it all online here [e-drexler.com].

Re:

[Jeff DeMaagd]

Actually, not really a solved problem. The basic principles might not change, but there's still plenty of room for improvement. There are always more boundaries to be pushed and expanded. In part, making this sort of technology cheaper is not a solved problem. Teaching all that other stuff is really enabled by easier access to the equipment. It is possible that a lot can change by allowing more people access to a technology, or when a new technology comes along.

Re:

[644bd346996]

This is a rapid prototyping machine. It enables R&D. It isn't meant for mass-production.

Re:

[dbrutus]

One type of mass production this is good for is distributed mass production. There are lots of things that cost ungodly amounts of money but would be cheaper to replicate, plastic blender parts, for example. Right now, you strip a gear and ask how much it costs, the answer comes back at about 90% the cost of a new blender. Now I don't need 10,000 gears but I might be one of 10,000 people in a given year that needs those gears and if we each get them via these sorts of printers, we've got mass production in

Horses' Douvres?

[turgid]

Horses can keep their darned douvres in the field where they belong. I ain't going near them without wellington boots. Now don't get me started on cows...

For around the same budget...

[skelly33]

I think I'd prefer a small bench top CNC setup. Etch plastic, metal, wood, assemble machined parts into working contraptions - seems more useful than a plastic blob printer.

Re:

[skelly33]

You could not possibly be putting this machine in the same league as "decent machining equipment" in the 25-500K range, could you?

For the same budget there are plenty of desktop options for CNC type machines that could be considered to be in the same small form-factor, rapid prototyping league, but with better flexibility and that work with real materials. 5 seconds of effort on a search engine will turn up matches.

Here's something simple [fireballcnc.com] that I found selling on ebay for less than $500 right now. Surely

Re:

[zero_offset]

Here's something simple [fireballcnc.com] that I found selling on ebay for less than $500 right now.

Er, you can buy it for $375 from the website you linked to...

Re:

[fotbr]

Read a bit at www.cnczone.com

There's many people that have built their own CNC benchtop mills and lathes, usually starting with a ~$1000 manual mill or lathe and building the rest themselves, either from scratch or from a design and various kits.

RepRap Is Even Cheaper

[Dean Edmonds]

A RepRap [reprap.org] machine costs less than $500 in parts, though it does require a lot more assembly work.

$800...

[SuperKendall]

That site listed British Pounds, not dollars.

Still cheaper and cool - I like the idea of being able to add conductive threads in objects.

self-replication?

[halfelven]

If it can't self-replicate, it's useless.

I tried to make a Gargleblaster

[WillAffleckUW]

But all I got was a wooden goblet filled with a hard resin-like substance not like tea.

Oblig.

[SeaFox]

I, for one, welcome our self-replicating overlords!

Could be a miniature wargamer's dream come true...

[mark-t]

The ability to produce as many miniatures as you want, simply by providing the raw materials and a 3d specification.

Obvious Use -- Make Fingerprints

[Temeraire]

Yet another reason why biometric ID cards are nonsense!

Read a person's fingerprints etc, ideally remotely from an RFID passport, but more likely by hacking an official reader. Then 3D fabricate copies. No need to hack off their fingers now.

Re:Obvious Use -- Make Fingerprints

[griffjon]

No need to hack off their fingers now.

Well, THAT takes the joy out of ID theft, now, doesn't it?

The Most Important Question

[MrCrassic]

How much will this "ink" cost???

Or can you print some new ink and turn it into the infinite cycle???

Sorry if this was in the article. The read was /.-ed.

laser equivalent

[ceroklis]

I prefer the laser equivalent of this, stereolithography [wikipedia.org]. It is faster and more precise.
Some fancy pictures [howstuffworks.com].

Stereolithography machine hype

[Animats]

There's much misplaced enthusiasm for stereolithography machines. They're useful and fun, but not a panacea. It's inherently a slow process, and far more expensive than injection moulding if you're making many copies. The amateur stereolithography machine from this latest Popular Mechanics article is neither novel nor particularly good; I've seen similar machines before. Pushing some viscous liquid out of a syringe isn't one of the better approaches.

If you want to try a stereolithography machine, and

Re:

[RodgerDodger]

It's not a mass-production technology. However, these devices (or more likely, the fourth- or fith- generation removed of these devices) could well be a wonderful personal-production technology.

Consider: need a new pair of shoes? Load a design into the house-hold replicator, push the button, come back later and pick it up. Or more likely (as an intermediate stage, if nothing else), go to the shoe store, select a design from the variety available (having previewed in-store display models), adapt with measure

Re:

[Thomas Shaddack]

It's true that injection molding is faster production method. However, if you need so many parts, you can use the stereolithographic machine to make the mold you need. Optionally, you can also make the rest of the components of the molding machine.

Instead of silicone...

[RiffRafff]

...use a UV-cured plastic. This would eliminate the problem of the silicone not getting exposed enough to the air it needs for curing. Use something like the amalgam-replacement epoxy used by dentists. If fabbed at the right speed, with the right amount of UV during the fab process, it might even be able to support itself, eliminating the need for "support materials."

BTW, modern high-output single-LED flashlights like SureFire's new ones, require a fair amount of heatsinking to prevent the LED's regulato

Not ready for prime time

[seven of five]

I was pretty excited by this as earlier reported, but looking into it for a while, realized that you can't do precision fabbing with one of these el cheapo machines, not yet. The blobs/droplets are too big and the stepper motors spec'd at this price don't have the accuracy either. This will improve with time but 'not yet'.

Scanning Tunneling Microscope

[Colin Smith]

Can already do this:

http://en.wikipedia.org/wiki/Scanning_tunneling_microscope [wikipedia.org]

Maybe someone will use the basic technology to produce some sort of fabber.

 

Re:Can I make a 3D fake pussy?

[Anonymous Coward]

Can I make a 3D fake pussy? and fuck it all night long

I could think of more... constructive things to do with it, but each to his/her own.

You can think of more constructive things to do with a fake pussy than fucking it all night long? Like what, you sick bastard?!!

Re:

[fractoid]

Might save some altar boys from posterior stretching while you're at it. ;)

Re:Replicate some more web servers!

[trolltalk.com]

"Slashdotted!"

No, they're just busy printing up another web server.

Re:

[trolltalk.com]

"... for a second, I could have sworn I read 'flashlight' in the summary as 'fleshlight'"

You need to print yourself up some new glasses.

Re:New Organs

[nuzak]

> Im printing me a new liver :)

We recommend having it professionally installed.

Re:

[srvivn21]

> Im printing me a new liver :)

We recommend having it professionally installed.

So do the Irregular Mythbusters [irregularwebcomic.net].

Re:

[brxndxn]

I do not understand, but I believe it was profound. Where shall I invest large sums of money?

Re:

[bwcbwc]

the sticker shock of $2400 it just drives home the point that the technology isn't ready for prime-time

Back in the day, HP sold scads of laser printers to small businesses in this price range. $2400 isn't in your average hobbyist's pocket book, but it's low enough to open up a "We Make It" store-front in your local strip mall. Of course, there's no guarantee how long such businesses will last. If the price on these things drops into the $1200 range or lower, anyone who really needs the fab service would pro

Re:

[Nefarious Wheel]

Actually there is large scale industrial adoption of this technology already for prototyping, in engineering shops and major manufactured goods factories today, especially in the auto industry.

PTC / Windchill manufacturing http://www.ptc.com/ [ptc.com] business process software includes pathing for fabbed model creation, for example, and accepts quite a number of 3D drawing file formats incorporated in the workflow. One of the guys we just hired on at our SI comes from mfg background and clued me. It's considere

Re:

[nacturation]

Of course, there's no guarantee how long such businesses will last. If the price on these things drops into the $1200 range or lower, anyone who really needs the fab service would probably buy their own.

Shh... don't tell Kinko's that people can print their own stuff for less.
 

Wanna be a billionaire?

[Colin Smith]

The results are far too crude for any serious use.

So, build a better one. Where do you think the whole computing sector came from?

The first personal computers...
http://www.blinkenlights.com/pc.shtml [blinkenlights.com]

They all started looking like this thing. Someone will develop a better media, multiple colours, multiple media, a more accurate nozzle, finer motor control, better software etc etc. They might well turn out to be the next Hewlett or Packard.

Re:

[datapharmer]

Kinkos. People don't buy their own, they upload the file and go pick it up at the store. Still much, much cheaper than traditional prototyping.