A few weeks ago, Hackaday posted an article
saying that 3D printing was still way too
hard to get into and that finding the knowledge
that everyone seems to be taking for granted
these days can be kinda hard to piece together.
So that’s what I’m going to fix with this
video series.
Welcome to the basics course on 3D printing!
We’ve got 10 episodes coming up that will
help you understand how 3D printers works,
what the fancy terminology means everyone’s
throwing around, what to look for in a machine
if you’re considering getting one yourself
and, of course, how the printing process works.
If you’ve heard of 3D printing and are maybe
thinking about getting a machine for yourself
or have already picked one up, then this series
is for you.
But if you’ve already gotten started, I
think you’ll still get some good info out
of it.
This series is free for everyone to watch,
there’s no paywall, this isn’t a free
sample for a longer course I’m trying to
sell you somewhere, this entire thing is just
up here on YouTube.
It’s the biggest video project I’ve worked
on and I want to thank all of you who are
subscribed to the channel or are even supporting
my work directly through Patreon or YouTube
memberships, without you, I wouldn’t be
able to produce this series and just put it
up on YouTube.
And also, we’ve got a few partners onboard
for the series, they have been providing materials
and sponsorships, so thank you to all the
companies supporting this project as well,
you’ll hear more about them as we move on.
One note for the entire series: Instead of
doing a boring lecture-like approach, I’m
instead focusing on one subject for each video
- that means, you can watch them out of order
and just focus on the bits you’re interested
in, but you can also jump to other video explaining
some bits in more detail if we’re moving
at a pace that’s a bit too fast for you.
So, let’s get into it.
Okay, let’s get started with the most basic
thing of all: What is a 3D printer?
I just want to make sure we’re all talking
about the same thing here.
The textbook - Wikipedia - says it’s a machine
that produces three-dimensional parts using
an additive, layer-based process.
That makes a lot of sense - to me.
So, let me break it down, three things in
here that really define what is a 3D printer
and what is not: Three-dimensional, additive,
layer-based.
Three-dimensional means that you can make
parts that are more than just a flat geometry.
If you have a 2D printer, you’re adding
ink or toner onto a perfectly flat sheet of
paper; and cutting out contours from flat
material like paper, aluminum or plastic gives
you, technically, a part with some thickness,
but it’s still only got that 2D shape, but
now a bit thicker.
A 3D printer can also make those flat parts,
but its unique feature is that it can have
details practically anywhere on a part, in
any orientation.
This is how these parts came off the printer,
and that’s the three-dimensional part.
Next, “additive”.
If you want to make anything, really, there
are two basic ways of creating it.
Additive and subtractive.
Let’s say you want to bake cupcakes, what
you do is you start with an empty bowl and
add in your ingredients, one by one, until
you have your finished batter.
That’s an additive process.
What you could also do is to buy a cake and
then cut away everything that doesn’t look
like a cupcake.
Also works, but I don’t think that’s how
you typically make cupcakes.
That would be a subtractive process, you start
with something larger than what you need and
remove everything that’s in the way.
The subtractive equivalent for making 3D parts
would be something like manual wood carving
or CNC milling or laser cutting, where you
shave away at your material stock until only
your finished part is left.
But 3D printing is additive: The two common
ways of printing parts that are relevant for
the machines you are most certainly going
to be looking at are either filament- or resin-based,
where the machine takes your raw material
and, for example for filament printers, melts
it down and uses that to add on material until
what you have looks like the part you want.
And that brings us to the last part, layers.
Now, there are some approaches in 3D printing
that blur the lines of whether that process
is actually using layers or not, but generally,
a 3D printing process will slice a model into
fine layers and then print those one on top
of the other, from the bottom up.
The printer knows very little about what it’s
actually printing, and at most, it’s only
seeing parts of a single, two-dimensional
layer at a time.
For a filament machine, it’s getting all
the paths along which it needs to lay down
material in each layer, then it moves up a
bit and starts working on a fresh set of moves
for this new layer that it’s now printing
on top of the old one.
Resin machines are similar, but the common
ones actually project light into the resin
tank, which cures the resin in all the spots
where you want to end up with a part and block
out the light anywhere where there should
be no cured material in the final part at
all.
We’ll have a closer look at resin printers
in episode 3 of this series, they’re a great
type of machine for special applications,
but I think starting on a filament-based machine
is a way better choice.
The parts can still be very detailed, but
the process is much safer, less messy and
it’s an approach you can actually watch
while it’s happening instead of looking
into a black box and then miraculously having
a part appear a few hours later.
Want a few examples?
Cool.
The Prusa Mini: Makes three-dimensional parts,
check.
Additive process, check.
Layers, check.
This is a 3D printer.
Resin printers, like the SL1 or Mars: Check,
check, check.
Cupcake decorating: Uhm, I guess it’s three-dimensional,
though really it’s just a single 2D layer
you lay down, Additive, yes; layers, definitely.
So I guess, kind of a 3D printer?
But typically, it’s a machine controlling
the process, not a human.
A “3D laser printer” - commonly known
as a lasercutter.
Three-dimensional: Nope.
Additive: Nope.
Layers: Nope.
Who exactly had the idea of calling these
“3D laser printers”?
An injection molding machine does make 3D
parts, but it’s lacking the “layer”
component, and 2D, like, paper printers are
missing the “three-dimensional” part,
obviously.
Ok, so I think we’re on the same page when
it come to what sort of machines we’re actually
talking about.
So what do we use them for?
This is, I think, one of the most important
bits when it comes to how you look at 3D printers.
Of course, you’ve all seen the trinkets
and flower pots and pretty things you can
just download and print, and if that’s all
you want to use a 3D printer for, that’s
fine!
But as we’ve recently seen with printed
faceshield brackets for healthcare workers,
3D printers are able to make parts that are
more than just nice to look at.
With how capable and just, you know, ready
to perform at any time even the simpler machines
have become, I think we’re at that point
where we can really look at a 3D printer just
like at any other tool, like, I don’t know,
a Skilsaw or something, where it’s really
less about the machine itself, but more about
being able to use it well enough and then
making use of that machine, with the nitty-gritty
details of the process itself kind of getting
out of the way.
You don’t need to know to wind the motor
coils in a skilsaw or how to engineer the
bearing in order to be able to make a good
cut with it.
Much of what I try to do here on the channel
is making use of 3D printers and other sorts
of digital fabrication tools as just that
- a tool.
But that’s not to say that getting into
3D printing as a hobby and because you’re
interested in the tech and how it all works
together, that that wouldn’t be a legitimate
use.
It’s just a different one, and going into
3D printing, you should be very aware of whether
you’re looking for a tool or a hobby.
And actually, one really cool thing you can
do with 3D printers is making more 3D printers.
Yeah, yeah, I know, that a bit of a meme,
but that’s actually how this all got started.
In fact, if you look at these two machines,
you can still see that they’re also made
of 3D printed parts.
Some people prefer designs that make use of
bent sheet metal and injection molded plastic
instead, but I think having at least a few
3D printed parts is actually a good thing
for a printer.
The first machines of this style were called
“RepRap’s”, and their goal was actually
to manufacture as many parts for the next
iteration of printers on the current machines
they had, and then using common material for
everything that couldn’t be printed.
So of course, the printed parts would include
all these frame parts, but also, circuit boards
using markers to draw on the traces, printed
pulleys for the belts, there are even projects
that print the stepper motors that drive these
machines, or just the entire printer frame.
And that allowed these machines to progress
from expensive, complicated monstrosities
to machines that cost maybe a fifth of what
the first ones cost and are much more capable
and reliable - in not even 10 years.
I built one of the early ones, and it was
pretty rough.
The other part to why these machines were
able to progress so fast is because so many
people are sharing the effort they put into
improving the designs as open-source, so that
everyone else would be able to learn from
what they did, and if anyone like a specific
design, they would be able to simply use that
previous work for their own designs.
These two printers and a bunch of others are
open-source, which means anyone can grab of
a copy of the mechanical design files, the
software that runs on the printer, electronics
designs, everything is available for others
to use and learn from.
Unfortunately, we’re seeing more and more
closed-source designs that not only make it
harder to see how the features of that machine
were created, but it also makes it harder
for the community to work on those machines
and share improvements with everyone else.
That’s kind of a dead end, just like when
a manufacturer just grabs open-source software,
uses it for their purpose, claims they’re
“powered by open-source”, but then doesn’t
share back what they did.
But going into detail on that would be way
too much for this video, it’s just something
you should be aware of to understand what
got 3D this far.
So, let’s recap!
A 3D printer makes parts by adding material
in layers, and what it makes is entirely dependent
on what instructions your software sends it.
That’s both true for filament and resin
printers.
And lastly, we have these machines because
their designs and ideas got shared freely
as open-source and then improved on, and I
think that’s still something that’s worth
having, even today.
So in the next video we’re going to go through
what you should be looking for in a 3D printer
and what to avoid.
You can check that video out in the playlist,
until then, thank you for watching, make sure
to get subscribed, keep on making, and I’ll
see you later.
