There is a world of difference between these 2 printing technologies, 2-dimensional, and 3-dimensional printing.
The 3D printing Brisbane industry (3-dimensional printing, in general) is primarily involved with building up real-world objects.
On the other hand, 2D printing systems only publish graphics and text on a medium, usually on a paper. Before these printing machines can print out anything, there has to be a computer-generated, digital file for that.
The said digital files are the core of the whole printing process because it will tell the printing machine exactly what to do, or how to produce the object, all based upon the user’s set preferences and settings.
Naturally, these printer machines need to make use of inks to carry out the printing work at hand. Pretty much, this is where the similarities of 2D and 3D printing ends. Unlike the 3D printing method, 2-dimensional printing can’t build or print layers. Thus, they can’t produce or “print” real-world objects.
Before you try to venture into printing anything in 3D, you must ask yourself of these important guiding questions:
- Strength – How strongly do you need your 3D printed material to come in?
- Flexibility – How flexible do you need your 3D printed material to be?
- Accuracy – Do you need to 3D print your part or material with great precision?
- Special Conditions – Is there anything else you have in mind you want your 3D printed model to be in?
Defining 3D Filament
When referring to 3D filaments, you are pertaining to thermoplastics. These are special kinds of plastics, once they are heated to the right temperature, they become pliant and flexible.
The pliability of these plastics makes them one of the most ideal materials for 3D printing. Since thermoplastics are highly pliable, you can sculpt them to custom shape before it cools down. 3D filaments come in two types:
- ABS (Acrylonitrile Butadiene Styrene)
- PLA (Polylactic Acid)
ABS 3D Filament
ABS is a very good material to use when printing out moving parts, automotive parts, kitchen appliances, musical instruments, electronic housings, and even toy materials like LEGO
Besides its 3D printing applications, traditional manufacturing firms use this type of plastic to produce plastic wraps, cups, and water bottles, just to name a few of its other uses.
One drawback to using ABS as a 3D printing filament comes with the risk of producing unpleasant fumes. Some people will find this irritating. Needless to say, if you will use this filament for your project, see to it that you work in an open space area or a well-ventilated room.
PLA 3D Filament
Compared to ABS, the PLA melting point is comparatively lower, and this only goes to show that it is a weaker type of filament to use for 3D printing. This point holds so much relevance when printing out moving parts that are likely to get exposed to high temperatures, which can result in the warping, cracking even melting of the printed part.
If nothing from what was described above is fitting to you or your 3D printing projects then you should be taking PLA as your filament of choice. You can anticipate to provide you with superior print details. Besides, this type of filament is not susceptible to printing errors anywhere in the entire build process.