3D printing guides: The worthwhile struggle with Polycarbonate

Learn how to tame the polycarbonate beast and what treasures await once you’ve mastered it!


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The worthwhile struggle with Polycarbonate

I’m Tom and today i’m going to talk about Polycarbonate. Now, Polycarbonate, or short / PC, is one of the highest-performing plastics out there, both in terms of strength and temperature resistance. It’s also optically clear, which makes it ideal for things like shatterproof sunglasses, face shields, protective glasses or even as a component in bullet-proof windows. It’s also often used in composites where glass or carbon fibers are added to make the material even stronger and stiffer. For 3D printing, you’ll probably be using polycarbonate without fiber additions, but just by itself i, Polycarboneate is already a pretty impressive material. It is a bit stiffer than ABS, but not quite as hard as PLA; It has an enormous amount of layer bonding and it takes way higher forces to break a printed part than one made from “normal” plastics. Even getting the brim off of your print can be quite challenging. Now, Polycarbonate isn’t a new material, RichRap has been printing Polycarbonate since 2011, but it isn’t really popular, yet, either. And that has couple of reasons. First of all, i already mentioned that it is very temperature-stable with a glass transition temperature of about 150°C, compared to 100° for ABS or just above 60° for PLA, but that also means that you’ll have to print Polycarbonate at much higher temperatures. You can extrude it as cold as 260°C, but at that temperature, it has almost no layer adhesion. So realistically, you’ll be printing Polycarbonate beyond 300°C, which simply isn’t something that normal hotends that use PTFE or PEEK in the heated parts / can handle. I mostly used 315°C. You will need an all-metal hotend and possibly a specialized thermistor or another way of measuring the hotend’s temperature since even the stock thermistor of the E3D v6 is only rated for up to 300°C. Now, the thermistor probably won’t spontaneously combust at 301°C, but it will have a reduce accuracy and a shorter lifespan at those temperatures. / You might also want to retighten your nozzle once the hotend is up to temp for the first time to keep if from oozing out in the wrong spots.

The other thing that i’ve found extremely challenging was getting my prints to stick to the build plate. I tried Glue stick, Kapton, PET tape and ABS glue slurry stuff, and the only ones of those that worked somewhat decently were PET tape and, to a lesser degree, Kapton tape. Bed temperatures of 120 or 140°C made very little difference, and while smaller and weaker prints like this octopus worked pretty well on PET tape at 125°C, stronger parts like the Formlabs rook detached mid-print every single time. Kapton has a bit of an advantage here since the part stays stuck to the tape while the tape itself lifts off of the bed. But neither are ideal. And that, i think is the biggest downside to polycarbonate. Of course, you could use a polycarbonate sheet and print onto that, but to keep your parts from permanently bonding to the sheet, you’d have to apply the exact right amount of hairspray or some other release agent to it and still wouldn’t have a surface that reliably works each time.

One other thing that was quite nasty about Polycarbonate was the smell. Because it smells like sweet burnt rubber and, going by what i’ve read about it so far, also releases quite a lot of particles into the air, so it’s probably not something you want to be in the same room with while it’s printing. YOu should also open your windows. Even if it’s cold outside.

Polycarbonate seems to require a minimum speed to print well. If you go too slow, it will start bubbling up and turn your print from clear to opaque white. On the other hand, if you print too fast, the filament might kink in the extruder and the layers of the finished print will have less adhesion to each other. But a slighly larger extrusion width can help with that, especially for things like vases.

And while the acetone vapor method works pretty well for smoothing out ABS prints, you will need need MEK to dissolve or smooth polycarbonate, and that is basically a stronger and nastier version of acetone. Acetone by itself will instantly make Polycarbonate brittle instead of dissolving it. The thing is, though, you will rarely need to smooth out Polycarbonate prints since the prints just by themselves will usually look very, very clean without any post-processing.

Now, this might all sound like Polycarbonate is something that you wouldn’t really want to use. And it’s true, it’s not ever going to replace ABS or PLA as a daily driver filament. But, just like Nylon, it is a material that is well suited for special applications, especially for those where Nylon is too soft. I’ll be using it for 1:10th scale RC car spares, where using printed ABS parts instead of the original composite parts just doesn’t feel quite right. Because of its neat optical properties, Polycarbonate is also well-suited for glowy things, but PET filaments like Colorfabb XT or Taulman T-glase are probably the better choice for those things since PET is / actually printable. So it really boils down to high-temp or high-strength parts, and ever there there’s some competition. Taulman are now offering Tritan filament, and from what i’ve seen about that, it seems to be a very promising plastic that is much more printable than Polycarbonate while only lacking the extreme temperature resistance. I’m still waiting to get some Tritan and i’ll post a comparison once i’ve tried it out.

So there you have it! Polycarbonate right now is both a solution and source of problems, but it is a pretty neat material for the right applications. And it’s not even that much more expensive than regular filament.

So, thank you to E3D for sending me a roll of Polycarbonate a while back, i just now got around to trying it out. If you want to purchase some, i’ve put some links in the description where you can do just that.

Before you ask, no i cannot share the file for the Formlabs rook, that file was give to me so that i’d able to run some direct comparisons to the sample part they are handing out. I was going to do a quick mechanical test in the same way i did for PLA, ABS, Nylon and the Formlabs part in the plastic destruction video, but i just didn’t manage to print a complete rook without it detaching from the build plate.

So that’s it for today, please do not hesitate to use those like, share and subscribe buttons on the Youtube page. And as always, thanks for watching! See you next week.

RichRap’s channel
RichRap’s blog and experiences with Polycarbonate

Get Polycarbonate from E3D

Get PET tape [US/UK/CA/AU]
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Roundom Vase by chopmeister
Mini Octopus by Cynar

Music by Kevin MacLeod


You can support me without spending a single penny!