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A 3D-printed Portal Turret

3D Printed Portal Turret Moves And Talks Like The Real Thing

March 27, 2022 by 19 Comments

Thanks to its innovative gameplay and quirky humor, Portal became an instant hit when it was released in 2007. Characters became cultural icons, quotes became memes and the game became a classic along with its 2011 sequel. Even today, more than a decade later, we regularly see hackers applying their skills in recreating some of the game’s elements. One beautiful example is [Joran de Raaff]’s physical rendition of a Portal Turret.

A 3D CAD drawing of a Portal Turret
Inside the Turret it’s full of moving parts.

[Joran] decided to use his 3D printer to create a Turret that can move and speak exactly as it does in the game. The result, as you can see in the video embedded below, was a triumph. We’re making a note here, “huge success”. The outer shell is a beautiful shiny white, an effect achieved through patient sanding, priming, and spraying with high-gloss paint. The internals are even more impressive with servos, microswitches, and a whole array of 3D-printed gears, cams, and levers.

A motion sensor activates the Turret whenever a human moves nearby. It will then open its wings and fire its guns while playing the corresponding sounds from the game. Its brains are formed by a Wemos D1 which drives the various LEDs and servos, while an MP3 player board holds a library of sound bites and plays them through a speaker hidden inside the Turret’s shell.

After posting his creation on YouTube [Joran] got many requests for the 3D files, so he made them available and wrote a comprehensive build guide. This should enable anyone with a 3D printer to build this neat gun, without getting too much science done. If this model is too small for you, then perhaps this life-sized model is more to your liking. If you prefer your Turret small and cute, check out this plushie version.

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3D Printed Forge For Recycling

March 27, 2022 by 30 Comments

If you own a CNC and have kept tabs on metal prices these past few years (honestly months), you might shed a small tear as you watch chips fly off your work and into the trash. With a sigh, these flecks and pieces are consigned to be the cost of machining a part. Thankfully, the fine folks at [ActionBox] have been working on a 3d printed plaster forge for recycling their metal scraps.

The team ordered some graphite crucibles of a few sizes from a large online bookstore and started 3D printing some molds for crucible holders. They started with a smaller version to try the method. While the walls were too thin in that initial version, the approach was proven. With slightly thicker walls, the medium-sized version worked much better. The goal of the forge was to smelt copper as they had a lot of thick copper wire lying around. Armed with several propane torches, they started melting aluminum and brass, which worked reasonably well. However, the melting point of copper continued to elude them (1984°F or 1085°C).  To counter this, the [ActionBox] team bought some new torches that provided significantly higher BTU output, while still fitting the holes in the mold. This did the trick!

The mold to accommodate the large crucible was massive and printed in four sections. The team did melt copper successfully and had four ingots to show off. We want to stress how dangerous molten copper and other metals are, particularly regarding things you might not realize have moisture soaked up inside. Proper PPE is essential to use these things without getting hurt. [ActionBox] has some helpful pointers in that area, but they admit they are relatively new to forging and casting themselves. Perhaps version two can incorporate a flip lid for added safety.

Video after the break.
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DIY SLS 3D Printer Getting Ready To Print

March 25, 2022 by 12 Comments

Ten years ago the concept of having on our desks an affordable 3D printer knocking out high quality reproducible prints, with sub-mm accuracy, in a wide range of colours and material properties would be the would be just a dream. But now, it is reality. The machines that are now so ubiquitous for us hackers, are largely operating with the FDM principle of shooting molten plastic out of a moving nozzle, but they’re not the only game in town. A technique that has also being around for donkeys’ years is SLS or Selective Laser Sintering, but machines of this type are big, heavy and expensive. However, getting one of those in your own ‘shop now is looking a little less like a dream and more of a reality, with the SLS4All project by [Tomas Starek] over on hackaday.io.

[Tomas] has been busy over the past year, working on the design of his machine and is now almost done with the building and testing of the hardware side. SLS printing works by using a roller to transfer a layer of powdered material over the print surface, and then steering a medium-power laser beam over the surface in order to heat and bond the powder grains into a solid mass. Then, the bed is lowered a little, and the process repeats. Heating of the bed, powder and surrounding air is critical, as is moisture control, plus keeping that laser beam shape consistent over the full bed area is a bit tricky as well. These are all hurdles [Tomas] has to overcome, but the test machine is completed and is in a good place to start this process control optimisation fun. Continue reading “DIY SLS 3D Printer Getting Ready To Print”

Giant PC fan

3D-Printed Parts Let You Assemble Your Own Biggest Fan

March 17, 2022 by 14 Comments

It’s getting close to the time of year when we need to start carefully vetting projects here at Hackaday. After all, nobody likes to get punked by an early April Fool’s joke. But as silly as this outsized PC fan looks, it sure seems like a legit build, if a bit on the pointless side.

Then again, perhaps pointless is too harsh a word to use. This 500-mm fan is by [Angus] over at Maker’s Muse, and it represents a lot of design work to make it buildable, as well as workable and (mostly) safe. Using both CNC-cut MDF and printed parts, the fan is an embiggened replica of a normal-sized case fan. The fan’s frame had to be printed in four parts, which lock together with clever interlocking joints. Each of the nine blades locks into a central hub with sturdy-looking dovetails.

And sturdy is important, as the fan is powered by a 1,500 Watt brushless DC motor. With a 4:1 reduction thanks to a printed gear train, the fan spins at around 3,300 RPM, which makes a terrifying noise. There’s a little bit of “speed-wobble” evident, but [Angus] managed to survive testing. The fan, however, did not — the 3D-printed gears self-destructed after a full-speed test, but not before the fan did its best wind tunnel imitation. And the RGB LEDs looked great.

This one reminds up of something we might see [Ivan Miranda] come up with. In fact, his super-sized 3D printer might have been just the thing to shorten [Angus]’ print times.

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Doubled Up 3D Printer Upgrade Doubles The Fun

March 17, 2022 by 19 Comments

[Nathan] from Nathan Builds Robots on YouTube is no stranger to modding 3D printers, whether it’s a good idea or not, it’s just fun to find out sometimes. His latest escapade he calls the Double Ender (video, embedded below), where he not only doubles up the hotend, but the doubles up a few other bits too. The aim was to achieve dual material printing, with his specific goal to combine plain nylon and carbon fiber-loaded nylon in the same print, to get the best properties of both materials.

Perfects results on the first try!

Taking a stock Ender 3 v2, [Nathan] first installs a dual Z axis kit, doubling up the Z axis screw and associated stepper motors. Likely this was needed to compensate for the additional weight of subsequent mods. Since the stock Ender mainboard has only one Z axis port, the less obvious solution was to just install a second mainboard! By leveraging the immense hackability of the Klipper printer firmware/software stack,he was able to get this weird configuration to work.

Next the main part of the build; the Phaetus Tai Chi dual hot end installation. For some reason, initially, it was decided to combine the stock bowden injector/extruder with a direct drive second unit, which we guess keeps the reciprocating weight down a bit and does let you directly compare bowden and direct drive print results on the same machine. Anyway, the first dual material prints came out pretty good after a few (quickly glossed over) fails, and did work well enough that dual-nylon printing could now be an option. After switching the build to a dual direct-drive setup, [Nathan] found it easier to get the machine to switch filaments more reliably, which makes sense when you think about the impact of all that extra filament in the bowden tube.

[Nathan] clearly has been burned (haven’t we all?) possibly literally, by the curious habit of some Chinese suppliers, of randomly assigning power supply polarity to red/black wire pairs. The solution, somewhat belt-and-braces, was to simply make up custom power cables with an embedded rectifier. Well, we guess that’s one less thing to worry about, but do look away when those PSU hacks are being shown!

Multi-material or multi-color FDM printer options are plenty, here’s a cool way of using a servo to swing a pair of hotends to the same point, and we also saw a while back, a way of using a sprung-loaded rocker to flip the unused hotend up out the way when not needed.

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Tired Of 3D Printed Skirts? Try Kisses

March 16, 2022 by 24 Comments

One popular option when 3D printing is to have the printer draw a loop or two around the print before starting. This serves several purposes: it clears the print head for one thing. It also marks the area of the print bed in use and many people use it to adjust the leveling if necessary. However, the little scraps of plastic do add up. [Makers Mashup] decided to try something different and now uses what he dubs the landing strip and kisses method.

The landing strip turns out to be a piece of blue tape and the kiss in question is like the chocolate kind and does not involve pressing your lips against the nozzle. There’s a wizard that generates startup code for you that has the style of purge if you like.

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Syringe with diluted nail polish used to fill into cursive "FuzzyLogic" letters extruded into a surface of a 3D-printed block of plastic, as a demonstration.

Brighten Up Your Prints With This Nail Polish Approach

March 14, 2022 by 25 Comments

It’s not enough to 3D-print a part – there’s a myriad of things you can do from there! [FuzzyLogic] shows us his approach of adding inlay labels, icons and text to a 3D print, by extruding them into the print and filling the resulting cavity with nail polish! This makes for colorful and useful prints, as opposed to dull single-color parts we typically end up with.

The devil’s in the details, and [FuzzyLogic] has got the details down to a technique. Nail polish has to be diluted with acetone so that it flows well, and a particular combination of syringe and needle will be your friend here. Of course, don’t forget to factor surface tension in – even with well-diluted nail polish, you cannot make the grooves too thin. A bit more acetone on a q-tip helps in case of any happy little accidents, and a coat of clear acrylic spray paint seals the lettering firmly in place. The five-minute video tells you all about these things and a quite few more, like the basics of extruding text and icons in a typical CAD package, and has a bit of bonus footage to those watching until the end.

Adding markings to our prints is a lovely finishing touch! If you’re looking for more of that, here’s a custom tool-changing printer with a pen attachment making beautiful custom enclosures for the Pocket Operator.

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