General 3D printing misinformation: review of facts and fiction!
Each technology has some fundamental limitations, and 3D printing is no exception.
For sure, I am not the one that will disenchant this emerging technology: I am writing this blog and I regularly post new designs on thingiverse.
But as I write this post (april 2013), you just cannot buy a 3D printer and print anything, nor even expect it to work as advertised if you do not understand very clearly how the thing works. It would be a very frustrating experience because it is just not reliable enough for the average user. It is even quite hard to reach an acceptable quality even for people born with a screwdriver in their hand. Please read on!
First, let me state again that I do think that 3D printing will become a major step/shift in the industry, and a huge one: I somehow agree with people that think it is even a new paradigm. However I realized that it could be useful to write down some of the misconceptions or inherent shortcomings instead of telling always people to clam down...
Also, let me say I still do write mistakes myself. But I just want here to tell what's real and what's plain untrue in my opinion in the mainstream media. There are lots of naive errors made by lots of writers that go and go uncorrected.
Actually, many reviewers just don't have a clue about what 3D printing at home really is. They also miss the fact that so-called fused deposition modeling exists in the industry since the late 1980s. Some brag about telling out loud that everything will be 3D printed in the near future - and especially firearms. Let me say I consider that there are just two kinds of journalists: some are real professional -- the geekiest could have a look at wired for example --, while some other may just need to publish a lot of crap to get a living like my nearby newspaper: this is no excuse for badly reported information and less even for misinformation.
But back to 3D printing at home facts and fictions.
The peak of inflated expectations
Gartner did a brilliant analysis of how emerging technologies are perceived and talked about. They resumed it in their "expectation curve", or what they call a hype cycle themselves though it is no cycle at all (!)
It illustrates appropriately what is up here, even I you will have to shift everything significantly to the right because this one is obsolete:
Gartner's Hype "Cycle" for emerging technologies in 2010 (warning: this is really old given the content!) |
See how 3D printing is (now) at the top of the expectations and will soon fall due to "disillusionment", before it really gets known, serious and mainstream? Remember how "virtual reality" would be everywhere and how "speech recognition" would discard your keyboard at their time? Virtual reality nowadays only start to appear on smartphones or Google glasses, while speech recognition is known enough to be used only where it works and make sense (once again mostly on smartphones, not on your desktop PC).
As I said last year, now are the times where everyone hears about 3D printing at home. No magazine can afford not to write something about 3D printers: I read it in "issues" ranging from gardening to religion! So/and this is no surprise that this is the year where most bullshit will be told also. :)
I guess that in half a year or so, there will be much less noise.
Existing 3D printers just do not match the average user expectation, seriously! It is no click-and-play technology, not at all, and this is why until recently you just could only get kits to mount yourself. Even if printers were reliable, you still would need to get the 3D model of object to print in the first place!
Now, 3D printing will necessarily make its way to the plateau of productivity of Gartner's curve. It will probably be quick to reach the market given the usefulness of the technology. Also, hey, a real lot of money could be made out of a completely reliable and user-friendly printer!
Quick factual data and hoax busters...
The good news: what's really new!
- 3D printing at home is now possible because it is much cheaper than in the industry where it costs $10K+ or even $100K+ for a printer. Many thanks go to people like Adrian Bowyer, the father of 3D printing at home, and the "reprap" open way of life.
- You can repair, design and produce complex objects at home (check this household category for example). But be aware of the limitations I talk about below.
- The required software is free and functional. You need nothing to pay beyond the very hardware to build your printer and the filament you print. But it will not be that easy, because of the many options and tuning to achieve a great print.
- It is a significant industrial change Together with micromanufacturing and fablabs, 3D printing could definitely be considered an industrial revolution 2.0 (actually the third one in history): not only do you get a small factory at home to make yourself, but you can also repair thing that were ditched otherwise, which in turn fights planned obsolescence, nah! And finally, it is better for the environment as the carbon footprint is much lower from factory to the user (especially when we will be able to make and recycle our own filament). Now it will also kill some jobs, while creating some new ones as with any new technology.
The bad news: how limited is 3D printing?
- Well... you need a 3D model of your object before you can print it!
Well, this is embarrassing. You just bough a 3D printer and, well... you would like to print a replacement for your broken part of your vacuum cleaner... Where to start from?!
Either it exists in public (or soon, private?) databases such as thingiverse, or you need to revert to the tricky field of computer aided design. I am sure that there are jobs to be created here and I would gladly be one of the first : "have your own special thing be designed by a professional for a 3D printer". I design it, you print it. Else, if you have no design you have nothing to print. And you cannot print it either if it is not well-suited to 3D printers (like when it has no flat parts, or big overhangs...).
One of my specific handlebar GPS mount, explicitely designed for a 3D printer. You are lucky if yours exist, else you must design it yourself with CAD, or adapt an existing source code, or subcontract a designer. |
Low cost 3D scanners are also under development, but it is a long way before you can scan an object and print it without a lot of in-between work to fix the scanned mesh. And, once again, scanners will not get you all the intricate internal shapes of an object anyhow. Think about it: you just won't be able to scan a pair of scissors and get a functional printed copy!
And this is only one of the fundamental limitations of the technology...
- Precision is limited
3D printers have a limited precision. The nozzle output is about 0.4mm, and trying to print details below 0.1mm is usually worthless. It is very well suited to many objects, but you will have hard times trying to replace the smallest broken nylon gear in your compact camera with a 3D printer. Even the professional or semi-professional selective laser sintering technique will not make it possible sometimes.
Check my fingerprints: I can't get really much finer than that, which still will not meet technical requirements in some cases (treefrog credits: MorenaP) |
Precision can be increased by using a smaller nozzle. But you will suffer from excessively long prints. Think about like as if you were filling a 10cm square with a 0.1 pen tip and on 1000 sheets of paper! Even at a speed of 10 cm/s (which is fast), it will take ages.
Also a smaller nozzle will make it increasingly difficult to fine-tune the proper printing parameters. The quality and homogeneity of the filament being extruded will also impact the extrusion much more.
- Printable material is limited
Talking about material, well... 3D printers just print a very few. Check my review of printable materials. Beyond some low-temperature melting plastics, you have a few pastes. Then, professional printing techniques offer metallic powders to be fused by high power lasers, but the results still may be brittle (or at least quite expensive).
Do not think you could print anything that will stay close to an engine that heats (ie. most of them), as your object will just met. For example, the common PLA we use becomes soft as low as 50°C (~120°F), and no plastic you can print will stand more than 200°C (~400°F).
- Printing/production speed
Printing all this carefully took me ~6 hours: it is really slow! |
Unless you have very specific requirements and unless you can pay a lot for it, a 3D printer is NOT a productive factory... This is even true for professional 3D printers, except for some limited fields like in the prosthetic or the space industry, or when deeply mixed material is needed, or when intricate shapes just cannot be molded or carved. Past a few items per day, you will find it is really not appropriate.
By the way, when you want to switch to a mass-production, the prototyping design may not be compatible with the industrial requirements (eg. molding a formerly 3D-printed object will require a complete redesign if it was not though about at the very start of the design).
Seriously, just stop at once when you reading or listen to someone that tells you that everything will be printed in the future: this is plain false and naive. Once again, think about how quickly you can mold something compared to fused deposition modeling. It even explains why some people use a 3D printer to print a mold (!) when they aim for a small production.
- Not all 3D printable shapes can be printed
For now, 3D printing at home relies on a filament pushed through a melting nozzle. For this reason, it will not print on top of nothing, which in turns impacts what you can print and how you shall design the object.
Consider the letter "M". The inside is a so-called "overhang", and it requires support to be printed because it floats in the air. Support structure may be added automatically by the software, but it must be carefully and manually removed by hand afterwards (unless you use esoteric and complex dual-head setups with water-soluble PVA plastic for example). As soon as the overhang angle is above 45°, the printer will start pouring plastic in the air, which generally ruin the print. Hence the 3D object designer must take this into account.
The flat tab on the bottom right just helps printing reliably, else the thing usually pops off the bed before the end. |
As a consequence, we take this into account and add sometimes explicit tabs or "rafts" to counteract the issue, as shown on the design on the left. It must be removed manually when the print is over.
Note that there are other professional printing technologies that avoid the overhang and popping off issues, such as those based on fusing the top layer of a powder with a laser, then adding another layer of power and cycling. Some other use a liquid polymer that is cured with hard light or lasers. Except for a very few attempts such as the Form1 on kickstarter, none of them made their way to our homes yet, and they require quite messy powders or polymers with their own sets of limitations.
- 3D print a gun? Oh stop talking about it to me!
I just hear this too often. As usual any new technology triggers fears. Of course, humans are curious and quite aggressive, so it is just plain obvious that some try to do "nasty" things with a printer.
Now I have a better advice: just go to your nearest hardware shop and buy some plumber pipes! It will make a much more robust gun that will not fail after six rounds, and will
Hey, you can even print a bomb if you are a fool and manage to shape explosive as a melt-able filament. And nobody ever printed a bazooka? I just have no opinion on this, but I can understand that people and government don't like it (especially when they do not want third-party resellers...).
Why not print a politician and a journalist instead? :)
- Reliability and tuning is hard
Printing an object requires extensive use of software and algorithms. And they are not yet quite user-friendly because of the many settings that can ruin your print from the software point of view -- oh, did I tell about the hardware setup also?
Oops. Over-extrusion in the (not so) many parameters of Cura |
Conclusion: please take care about what's being said about 3D printers!
In my humble opinion, writers and reporters should at least read about 3D printing first in the wikipedia or the reprap website. Better even: go and check by at your nearest fablab, spend a few hours there, talk with people, and only then make a worthwhile article!Hey, even regular printers are sometimes very evil, so do not expect a 3D printer to be better there (note: the link came from the Polish antyweb.pl post that recycled my images and some ideas of mine - let me try to start an infinite loop! By the way, it presents some more information and analysis that is worth reading, e.g. via google translate).
Actually, a local newspaper recently sent a journalist at our French fablab. He spent a few hours there and then wrote about "3D laser printer" in his paper, mangling names and technologies by the way. Another one stated that Dell was building 3D printers, after he went to a meeting organized by Dell and where a booth was given to a third party which featured 3D printers. This newspaper is very well-known and it hurts me that they are so bad: I would not trust them whatever they will be talking about now.
So please readers, keep on reading and whenever you find a piece of information valuable, just check it against different sources: never take something from granted, even if it comes from this blog! :)