Need a quickstart in the world of 3D printing? This is the article for you. In this guide, we'll break down 3D printing for beginners and explore machines, processes, and top tips.
“3D printing” is itself a very general term. The media, especially mainstream marketing, portrays 3D printing to be a magical technology of the future capable of replicating complex objects. But that makes it hard to put a finger on what exactly 3D printing is, technically speaking. In reality, there are many different 3D printing technologies, but FDM, on which this article is focused, is the most common one.
Fused deposition modeling (FDM) is a 3D printing technology that prints parts using thermoplastic filament, which is basically a cord of material capable of being melted, selectively deposited, and cooled. Parts are built by adding up layers on top of each other.
FDM was created because its creators wanted a way to rapidly prototype parts. Even today, rapid prototype production is one of the biggest benefits of FDM and 3D printing in general. Nevertheless, 3D printing is also slowly becoming a potent manufacturing solution.
Before we proceed with the details of how FDM works, there’s one more thing worth mentioning. In case you already did some research on FDM, you may have noticed that some sources use the term “FFF”, which stands for fused filament fabrication, instead of FDM when referring to the technology. Well, that’s because FDM is a term originally trademarked by Stratasys, and the other abbreviation is more of a general one. Remember, it’s the same technology, only the names are different.
Which is the best 3D printer for beginners?
If you’re dying to jump right in: The market is filled with tons of cheap 3D printers which all seem to be ideal for beginners. But the best way to wrap your head around it is to check out our list of best beginner 3D printers.
Anatomy of a 3D Printer
The easiest way to understand how FDM works is to first learn the parts of an FDM 3D printer. Before we talk about specific parts, though, it’s worth mentioning that conventional FDM 3D printers can perform movements in three axes, named X, Y, and Z. The X- and Y-axes are responsible for left, right, forward, and backward movements, while the Z-axis handles vertical movement.
Now, let’s look at the main components of a 3D printer:
How a 3D Printer Prints
The process starts when you send a 3D model file to the printer. Once the print job is started, the nozzle starts to heat up. When the nozzle reaches the required temperature to melt the filament, the extruder then pulls filament into the hot end in preparation for deposition.
Now, the printer is ready to start 3D printing the part. The print head lowers down to the build platform and starts depositing molten filament, which cools and hardens shortly after exiting the nozzle, thanks to the part cooling fan(s). The filament is deposited one layer at a time, and after one layer is complete, the print head moves up in the Z-axis by a tiny amount, and the process is repeated until the part is complete.
If you’d like to go into even more detail about this printing process, check out our article on FDM 3D printing.
Naturally, if you want to 3D print a part, you have to have a 3D model of that part. 3D models are created using 3D modeling software, usually referred to as CAD (computer aided design) software. Here are some examples of popular 3D modeling software:
However, most 3D printing beginners don’t have the skills required to use such professional software. If that’s the case, don’t worry, because there are other solutions. For starters, there are simpler CAD software options, such as Tinkercad, a simple program which almost anyone can use without any prior experience. It’s an online app designed by Autodesk, one of the industry’s leading CAD software creators.
With so many people gaining access to 3D printers in recent years, several sites have emerged as repositories for 3D models. Here are some of the most popular ones:
This way, anyone can get their hands on a model without any modeling skills.
3D models need to be prepared for 3D printing using a special kind of software that translates the model into machine instructions. This is done using slicing software, also referred to as slicers. 3D models are imported into a slicer, which then virtually “slices” the model into layers. The resulting files consist of G-code, which is essentially a long list of instructions followed by the 3D printer to build the model.
G-code is the “language” of 3D printers and CNC machines. These files contain important parameters required to produce a model, such as printing speed and temperature, wall thickness, infill percentage, layer height, and many others. In other words, 3D printing is impossible without G-code files!
Another of the main functions of a slicer is to generate support material. Support is needed for parts with severe overhangs. The slicer lets you choose where to put supports and how dense you want them to be. Some slicers even offer users the ability to choose different types of support structure for easier removal or stability.
If you’re still deciding which slicing software to get, check our slicing software guide to help you choose!
A couple of things always need to be done on a 3D printer before it’s ready to print:
Take a look at our bed leveling tutorial for more information on this important step!
As we’ve already mentioned, FDM 3D printers use spools of filament to build parts. The stuff is basically a thermoplastic specifically engineered to be melted and cooled while maintaining its structural integrity.
Filaments for 3D printing usually come with two different diameter options: 1.75 mm and 3 mm (or 2.85 mm). Apart from the diameter, filaments also come in different spool sizes. A closer look at the market reveals that the most common sizes are 500 g, 750 g, 1 kg, 2 kg, and 3 kg.
One of the best things about FDM 3D printers is that they can work with a large selection of filaments. Here are just some of the different types of filament which are used for FDM 3D printing:
Filaments for FDM are also amongst the cheapest materials used in the 3D printing world.
Check out our filament guide to learn about the 25 most popular 3D printing filament types. Learn their uses, properties, and where you can buy them.
Post-processing is the final stage of production for a 3D printed part. Here are some common post-processing steps for an FDM 3D printed part (not all steps are necessarily done):
Want to learn more about post-processing? Here’s our post-processing guide suitable for beginners!
Let’s discuss some of the most common issues beginners might run into when using a 3D printer. Click the links for a more detailed explanation of the issue.
3D printers, like any tool, require regular maintenance to continue functioning.
Storage mainly refers to filaments, not the 3D printers. Although, it’s always a good idea to store your 3D printer if you don’t plan on using it for a while.
Storage for filaments is an important aspect of 3D printing, especially if you have several spools lying around. It’s important because if the spools are left, say, on a desk for a while, dust and moisture settles in and could potentially ruin the filament’s properties.
There are plenty of filament containers on the market, as well as vacuum bags for filaments. All these products prevent the filaments from getting dusty and filled with moisture.
Filament dryers are also a thing. These are the devices which should keep your filaments healthy or make them healthy by drawing out the moisture stuck inside. Check out our article featuring ways to safely store filament to take a closer look at the products mentioned above.
Feature image source: blog.zmorph3d.com