Next up in this series, ABS!
[ABS Variants montage] [Intro]
Ok, let's start out with probably the most important bit about ABS: There's not just
one ABS, there are dozens of different versions that are all ABS-based or even just ABS-like.
Let's actually start with just ABS itself, which already isn't just one thing.
It's acrylonitrile butadiene styrene, so three monomer, mixed together and linked together,
forming the copolymer A-B-S.
The Butadiene in this mix gives ABS its typical milky, off-white color; it's a rubber, also
used for car tyres and such, and depending on how the ABS is manufactured, it remains
as larger or smaller particles within the mix - kinda like the small suspended fat particles
give milk its opaque white color.
Butadiene also gives ABS its toughness, which it is known for.
Now, the other polymer in here is Styrene - and that's the red thread that is common
to almost all ABS-like materials.
Now, just by varying how much of each component is used for the ABS blend, you already get
a huge variance of properties, but since ABS is mostly an industrial plastic, it's also
really common to have blends with additives mixed in that will have it flow better into
an injection mold, release more easily from the mold or change the properties of the final
molded piece in some way.
And if you just get one of those blends and extrude it into filament, it's not going
to print well.
While PLA is seeing a huge upwind with new blends specifically for 3D printing, ABS is
already an established ecosystem and 3D printing doesn't make too much of dent.
What I'm basically getting at here is that ABS filament comes in an enormous range of
qualities and properties and each one will want to be printed differently, and it cases
where the manufacturer is using the wrong injection-molding specific blend to make filament,
there might not even be a good way to print that specific ABS.
So the quality gap is a lot larger than for PLA, as is the range of properties you can
get out of it.
And what makes matters even more interesting is that there now is a huge range of ABS-like
filaments out there, from the simplest HIPS, high impact PolyStyrene, again, styrene-based,
ASA, basically replacing the Butadiene rubber in ABS with Acrylic, same stuff as acrylic
glass.
There's m-ABS, which is ABS with less Butadiene in it, making it a transparent plastic with
a lower impact resistance, you can get PC-ABS, ABS blended with Polycarbonate, or you can
just get polycarbonate by itself, and I'd still consider that to be similar in printing
properties to ABS.
So, yeah, properties, what are those?
What you'll typically hear is something like, oh yeah, ABS is strong, temperature-resistant,
but it warps and smells.
OK, let me get this straight.
Parts printed ABS and ABS-likes, except for maybe polycarbonate, are typically weaker
than most other plastics.
Especially if printed wrong, like in a cold environment.
That's also where you'll see ABS warp and crack along the layer lines because it
doesn't bond well enough to the cooled-down previous one.
I've moved on to printing any ABS-likes exclusively in an enclosed chamber, the prints
come out much stronger, and I don't have to worry about warping that much anymore!
Yes, the warping.
As we touched on in the last video on PLA, having a material that stays soft longer when
it cools down will also give it less of a chance to contract and actually warp your
part.
Because molten, printed ABS is already pretty hard when it has cooled down to about 100°C,
as it cools down further it can't stretch to make up for the thermal shrinkage as easily
anymore, so it will want to pull your already printed part up like a dish.
If you know you have good layer adhesion with your filament, you just need to get your prints
to stick to the bed to somewhat counteract that.
For bed adhesion, it's hard to beat PEI, ABS almost sticks too well to it, some adhesives
you spray or wipe on there also work well, but what makes a huge difference here is bed
temperature.
So yes, a heated bed, at least with my experience, is mandatory for printing ABS.
We used to crank these babies up to 120°C, but with most materials, that leads to what
is often called an elephant's foot, and talking about nuclear meltdown here, but it's
when the very first layer of the print sticks well to the bed, but the bed is so hot that
the first few layers above it end up staying soft and contract as the print progresses.
A heated bed that is too hot will also ruin any overhangs that are close to it because
those will curl up, so again, I can not recommend enough to use an enclosure and dropping the
bed temperature slightly, maybe to around 105°C, and instead just having the ambient
air in the enclosure at about 40°C. Any decent printer can handle that ambient temperature,
even if you have non-PLA printed parts on it and the motors and electronics inside with
the rest of the printer.
Print quality with ABS can be surprisingly good since mostly you don't need part cooling
with active fans and such.
ABS and ABS-likes will print well if you just grab your PLA profile, turn off the cooling
fan and adjust temperatures.
If you get meltdown artifacts, like typically on the chimney of a Benchy, you might need
to increase the minimum layer time, I usually run a rather long minimum layer time of around
25 seconds to avoid pumping too much thermal energy into a small section in too short of
a time.
I wouldn't try to "tune" any seemingly advanced stuff like extrusion width, I'd
say not until you have temperatures and speeds dialed in, but usually your slicer will do
a bit of math and figure out extrusion width and such out pretty much perfectly by itself.
You might need to set the base speed manually, as ABS will not flow as easily as PLA and
usually can't be printed quite as fast.
Though 60mm/s should be very doable with normal layer heights.
Now, you should only print ABS with an all-metal hotend, and I've often found that higher
temperatures will actually improve print quality instead of degrading it.
So if your hotend can handle it, feel free to experiment with temperatures up to, I don't
know, 265°C?
Higher temperatures also mean more emitted particles and a stronger smell.
Not every ABS smells as bad as others, but in either case, try not to be in the same
room as your working printer or printer enclosure and ventilate it well during or after a print.
If you print a lot of it, you'll find nasty cooked butadiene deposits all over your hotend
and extruder, so I don't think that's all too healthy to breath in.
Then again, people still choose to smoke.
ABS is actually the prime candidate for post-processing.
Paint it, glue it, drill it, mill it, tap it, weld it, or just smooth it, eherm, all
that works.
Because it has such a high working temperature, you can work with it with common metalworking
tools no problem.
One of the big advantages of ABS, at least in my eyes, is that you can cut it without
it splintering or breaking - so if you print a part with a brim, which is highly recommended
for anything ABS to make sure it sticks, you can either take a sharp knife and cut it off
or use one of these deburring tools - link in the video description to cleanly take it
off!
And for storing ABS, I know it's not as sensitive to moisture as some other filaments,
but it can still degrade, bubble and just make for overall horrible prints if it takes
up too much moisture from the ambient air.
So while you don't have to store it in a drybox like Nylon, it definitely doesn't
hurt to keep it in a somewhat humidity-controlled space.
So don't just drop it in our shed during summer.
One last thing about ABS: ABS itself is also not UV resistant, it will turn yellow, degrade
and eventually crack and break if left outside in the sun.
So either you can use an inherently UV-resistant filament like ASA, where the plastic itself
is not going to degrade, but still the colors might bleach over time, or you can just go
with black standard, cheap ABS.
Because the black colorant is typically based on soot, those tiny black carbon flakes will
actually absorb UV light as well, so even though the sunlight still hits the very surface
of your part, it will only be able to penetrate the very top layer, so the part itself will
stay perfectly strong.
This part right here I used as a brace for my apple tree for, what, five, six years,
had it out all summer and winter and it looks, feels, handles exactly like new.
Maybe except for the moss and stuff that's in the creases here, but everything else is
still perfect.
So overall, is successfully printing ABS, like, the big graduation ceremony for you
that you can work up to?
Well, not necessarily.
There's still a good bit of randomness involved with filament choices, especially with ABS,
I'd say get some brand-name materials, for example from this serie's sponsor Aprintapro,
I tested their flame-retardant PC-ABS in a Filaween episode and have been casually printing
their other materials and it turns out they are actually making excellent materials, which
is why they're getting to sponsor these videos in the first place.
The last few videos had the "contains paid promotion" banner on them, same thing, but
it apparently wasn't really clear why that was.
All that means is that the Aprintapro products, right here, get a bit of extra airtime, I'm
not required to praise their products at all, but still, their sponsorship in return makes
it possible for me, well, us, to produce more content for you guys.
Same as with the sponsorship from ATOM 3D for the stl-Bender video, the comment section
on that video actually seemed really enjoy that part!
Alright, ABS has a great set of properties, but unless you need all of them, there are
other materials that perform similarly, but might be a bit easier to print - we'll get
to those in the next few videos.
Still, if you have an end-all tip for printing ABS super reliably, please leave it in the
comments below or post it in the forums so that others can learn from it.
If you enjoyed this video, do this [thumbs], that [point to sub] or that other thing and
I'll see you in the next one!
For more infomation >> 6 famosos que se casaram com seus fãs - Duration: 3:31. 
For more infomation >> 7 incredibili motivi per mangiare il mango - Duration: 6:10. 
For more infomation >> RamassageDechets - Duration: 1:49. 
For more infomation >> Was sind die Top-5 Dividenden-Aktien 2018? Interview mit Christian W. Röhl | LYNX fragt nach - Duration: 6:24. 
For more infomation >> 1 SANİYEDE GÜZELE DÖNMEK ! (YENİ TREND) - Duration: 4:44. 
For more infomation >> 집에 산타할아버지가 오셨다 가셨나?! 크리스마스도 아닌데 집에 산타자루가 있어요!! (선물 개봉기)ㅣ토깽이네상상놀이터RabbitPlay - Duration: 10:13. 
For more infomation >> Nissan X-Trail - Duration: 0:49. 
For more infomation >> We Slept In An Ice Cave Over...
For more infomation >> Volvo V60 D4 R-Design Automaat(8) Intellisafe Standkachel On Call Camera Scandinavian Line - Duration: 0:54. 
For more infomation >> Volkswagen Tiguan 1.4 TSI R-Line Edition Navigatie, Pan.dak, Xenon, Park- &Lane ass. 18"LM - Duration: 1:00. 
For more infomation >> 《鈞崴GAME》旅行青蛙|中文字幕CC - Duration: 6:50. 
For more infomation >> 動物たち「おうちに入れてー!」 今すぐ窓を全開放したくなる、いろいろ【癒される】 - Duration: 4:34. 
For more infomation >> Hyundai i30 Wagon 1.4 T-GDi WAGON 7-DCT PREMIUM | NAVI | Half leder / half stof - Duration: 0:54. 
For more infomation >> Jimmy Kimmel Against Super Bowl Roman Numerals - Duration: 2:47. 
For more infomation >> Rapper Jay Z Just HUMILIATED By Trump In Front Of The ENTIRE WORLD- BreakingNews24 - Duration: 25:48. 
For more infomation >> Armageddon To The End - Duration: 41:27. 
For more infomation >> My graphic tablet Huion H1060P // OVERVIEW, unpacking + COMPETITION - Duration: 3:31. 
For more infomation >> How To Convince Your Pastor When They Won't Listen | Pro Church Daily Ep. #022 - Duration: 10:57. 
For more infomation >> You Have to Fight for It - Duration: 42:34. 
For more infomation >> Design Digest | January 2018 - Duration: 5:41. 
For more infomation >> The Ingraham Angle 02/01/18 2AM | February 01, 2018 Breaking News - Duration: 40:53. 
For more infomation >> Slinky Brand FlounceSleeve Print Sharkbite Tunic and Pan... - Duration: 5:53. 
For more infomation >> KARMA IS A BIT*H CHALENGE!(NEW TREND) - Duration: 3:56. 
For more infomation >> Adam Walsh, Interhome - TTR Travel Industry Road Show - Duration: 1:08. 
No comments:
Post a Comment