Transparent plastic is nothing new. However, 3D prints are usually opaque or–at best–translucent. [Thomas Sanladerer] wanted to print something really transparent. He noticed that Colorfabb had an article about printing transparent pieces with their HT filament. [Thomas] wanted to try doing the same thing with standard (and cheaper) PETG, which is chemically similar to the HT. Did he succeed? Watch the video below and find out.
You can get lots of clear plastic filament, but the process of printing layers makes the transparency turn cloudy, apparently mostly due to the small gaps between the layers. The idea with the HT filament is to overextrude at a high enough temperature that the layers can fuse together.
[Thomas] wanted to create some clear parts and diffusers for lamps. The diffusers print using vase mode and the lamps he creates when them look great even without clear diffusers.
His first experiments involved layer height and extrusion rates. He tried to determine what was making things better and worse and modifying his technique based on that. There were also some post-processing steps he tried.
If you want to see what the Colorfabb HT parts made by someone other than Colorfabb look like, check out the second video below from [3D Printing Professor]. The prints he is making don’t look very clear until he does some post processing. Even after the post processing, it isn’t going to fool anyone into thinking it is glass-clear. However, the parts that Colorfabb shows on their blog post about the material do look amazing. Between the overextrusion used to prevent gaps and the post processing steps, [3D Printing Professor] warns that it won’t be easy to get parts with precise dimensions using this technique.
If you have a big budget, you could try printing with actual glass. There seem to be several ways to do that.
We’ve had a love affair with the Monoprice Select Mini since it came out. The cheap printer has its flaws, though. One of them is that the controller is a bit opaque. On the one hand, it is impressive that it is a 32-bit board with an LCD. On the other hand, we have no way to modify it easily other than loading the ready-built binaries. Want to add bed leveling? Multiple fans? A second extruder and mixing head? Good luck, since the board doesn’t support any of those things. [mfink70] decided the controller had to go, so he upgraded his Mini with a Smoothie board.
On the plus side, the Smoothie board is also a 32-bit board with plenty of power and expansion capability. On the downside, it costs about half as much as the printer does. Just replacing the board was only part of the battle. [mfink70] had to worry about the steppers, the end stops, and a few other odds and ends.
Continue reading “Monoprice Select Mini Gets Smooth”
3D printing is one of the best things that has happened to the maker community in recent years, however the resulting output has always been prone to damage when used in high temperature applications or places where the part may be exposed to corrosive chemicals. In a recent paper titled “Three-dimensional printing of transparent fused silica glass“, [Kolz, F et. al.] have proposed a method which uses stereolithography printers to create glass objects that can be used in research applications where plastic just won’t cut it.
When we say stereolithography you probably think of resin printing, but it refers to the general use of light beams to chain molecules together to form a solid polymer. The researchers here use amorphous silica nanoparticles as a starting point that is later cured by UV light creating a polymerized composite. This structure is then exposed to high temperatures of 1300 °C resulting in models consisting of pure fused silica glass. This means that the part has excellent thermal and chemical properties, and is also optically compatible with research grade equipment.
Continue reading “3D Printing Glass Using Stereolithography”
The Midwest RepRap Festival is the best 3D printer con on the planet. In the middle of Indiana, you’ll find the latest advances for CNC hot glue guns and the processes that make squirting filament machines better, more accurate, and more efficient. There’s more to 3D printing than just filament-based machines, though, and for the last few MRRFs we’ve been taking a look at resin-based machines.
While most of the current crop of resin printers use either DLP projectors or LCDs and a big, bright backlight [Mark Peng]’s Moai printer uses a 150 mW laser diode and galvos. This is somewhat rare in the world of desktop 3D printers, thanks in no small part to the ugliness between Formlabs and 3D Systems. Still, it’s a printer that looks fantastic and produces prints that are far beyond what’s possible with a filament-based machine.
Continue reading “MRRF 17: Laser Resin Printers”
If you’ve played Fallout 4, you’re familiar with the wall-mounted terminals in the game. They’ve got a post-apocalyptic aesthetic and the glowing green screen that calls out to anyone that grew up with computers and hacker movies from the 80s and 90s. Remember the first time you set your command line text to green? Don’t be embarrassed, we were all young once.
[PowerUpProps] liked the Fallout terminal so much they developed a replica. It’s a build that leans heavily on maker standards, a Raspberry Pi and 3D printing form the basis of the terminal. With ready access to such powerful tools, it makes starting such a project much more approachable. The key to the success of this build is the fine attention to detail in the finishing – the paint job looks incredible, and when photographed appropriately, it could be mistaken for
the real thing an in-game screenshot.
An interesting touch is the use of a dark green acrylic window in front of the LCD, which gives the display a tinted hue. We’d like to see this compared with a clear glass window with a classic fishbowl curve to it, combined with greening up in software. The creator readily admits that this looks great at the command line, but is somewhat of a letdown when using the GUI.
Perhaps the only thing the prop build could use is some sort of user interface — the keyboard is only 3D printed and there’s no mouse or other pointing device included. There are some creative solutions to this problem, which we often see in other Fallout projects, like the ever popular Pip-Boy replica builds.
[Thanks to Sjoerd for the tip!]
Every year, sometime in March, the world’s preeminent 3D printing enthusiasts gather in the middle of nowhere This is MRRF, the Midwest RepRap Festival. It’s only two weeks away. You need to come. Get your (free) tickets here. I’ll be there, and Hackaday is proud to once again sponsor the festival.
I need to backtrack a bit to explain why MRRF is so great. I go to a lot of cons. Maker Faire is getting old, CES was a horror show. Even DEF CON is losing its charm, and all of these cons have the same problem: there are too many people. MRRF does not have this problem. For one weekend a year, everyone who is anyone in the 3D printing world makes it out to the middle of Indiana. This is a small meetup, but that’s what makes it great. It’s a bunch of dorks dorking around for an entire weekend.
If that’s not enough to convince you, take a look at the previous coverage Hackaday has done from MRRF. The PartDaddy, an 18-foot-tall 3D printer will be there. The world’s largest 3D printed trash can will not. Prusa is coming in from Prague, E3D is coming in from England. Judging from past years, this is where the latest advancements in home 3D printing first appear. This is not an event to miss.
You might be wondering why the world’s greatest 3D printer festival is in the middle of nowhere. Goshen, Indiana is the home of SeeMeCNC, builders of the fantastic Rostock Max 3D delta bot. MRRF is hosted by the SeeMeCNC guys. If you’re exceptionally lucky, you’ll get to go over to the shop and see a demo of their milling machine that cools parts by ablation.
Has it ever crossed your mind that everything you see for sale–no matter how mundane–is someone’s life passion? Or, at least, their work passion. Somewhere as we speak two or three people are in a room trying to figure out how to make a whoopie cushion for two cents less than before. Someone is touting the virtues of the newest design in egg cartons. The guys that make the tube that carries your money to the bank teller at the drive through window? They exist, too.
It is natural for us to think about improving 3D printers but most of us print plastic. We might wish we could print metal. But researchers in a few places are printing cheese. We didn’t say hackers with the muchies, we said researchers. There’s a colorful slide show from the University College Cork in Ireland, for example. They printed cheese at two different speeds and used a laser scanning microscope and a rheometer to analyze the results. We’ve seen rheometers in plastic factories, but never in the kitchen. Meanwhile on the hacker front, apparently spray cheese cans work as an easy cold extruder (see video below).
Continue reading “3D Printing Gets Cheesy”