Hackaday Links Column Banner

Hackaday Links: February 4th, 2018

February 4, 2018 by 14 Comments

Here’s something remarkably displeasant. Can you cook a steak with glue? [Dom] and [Chris] from ExplosiveDischarge have cooked a steak using a huge, huge amount of two-part epoxy. The chemistry behind this is just the exothermic reaction when two-part epoxy kicks off, and yes, the steak (a very thin cut) was sufficiently wrapped and protected from the hot sticky goo. What were the results? An overcooked steak, actually. This isn’t a sous vide setup where the temperature ramps up to 50°C and stays there — the temperature actually hit 80°C at its peak. There are a few ways to fix this, either by getting a thicker cut of steak, adding some bizarre water cooling setup to keep the temperature plateaued at a reasonable temperature.

This is your weekly reminder for the Repairs You Can Print contest.

We’ve got a twofer for awesome remote-controlled hovering stuff. The first is a 1:8 scale Harrier. This plane designed and built by [Joel Vlashof] will be a reasonably accurate model of a Harrier, capable of VTOL. It’s built around a huge 130mm EDF, powered by 2x6s lipos, and stabilized with a kk2.1 flight controller with VTOL software. This is as accurate a Harrier that you’re going to get in such a small format, and has the cool little spinny vanes that allow the beast to transition from vertical to horizontal flight.

Want some more cool hovering things? [Tom Stanton] is building a remote controlled Chinook. Yes, that helicopter with two main rotors. The usual way of doing this is with proper helicopter control systems like collectives and Jesus nuts. [Tom]’s building this version with standard quadcopter technology, mounting a motor to a servo, and doubling it up, and mounting it on a frame. In effect, this RC Chinook is the tail boom of a tricopter doubled up on a single frame. It does fly, and he’s even built a neat foamboard body for it.

SpaceX’s Falcon Heavy is going to do something next Tuesday, sometime in the afternoon, east coast time. Whatever happens, it’s going to be spectacular.

Hey, it’s time for a poll. I need to decide between ‘tide pod’ and ‘solo jazz’. For what I’m doing, the cost and effort are the same, I just need to know which is more aesthetic, cool, or whatever. Right now it’s 50:50. One must be crowned victorious!

Here’s the stupidest thing you’re going to see all year. That’s someone looping a quadcopter in front of a Frontier A320 (Probably. Seems too big for a 319 and too small for a 321) on approach. This guy is 3.6 miles East of runway 25L at McCarran Internation in Las Vegas, at an altitude far above the 400-foot limit. Judging from the video and the wingspan, this quad came within 200 feet of a plane carrying at least 150 people. It’s the stupidest thing you’ve ever seen, so don’t do it. It’ll be great to see the guy responsible for this in jail.

Benchtop Fume Extractor Cuts The Cord, Clears The Air

February 4, 2018 by 32 Comments

What good is safety gear that isn’t used because it’s annoying and gets in the way of getting the job at hand completed? None, really, and the solder fume extractor is one item that never seems to live in harmony with your workspace. They’re often noisy, they obstruct your vision, and a power cord draped across your bench is a sure way to ruin your soldering zen.

To fix those problems, [Nate] has built a nice battery powered solder fume extractor that’s so low profile and so quiet, you won’t mind sharing a bench with it. Based on a standard 80-mm case fan, the extractor has a built-in 18650 battery for power and a USB charging port. There are nice little features, like a speed control and a low-battery indicator. The fan mounts to a pair of custom PCBs, which form the feet for the fan. [Nate] claims to have run the fan for 12 hours straight on battery before needing a charge, and that it’s so quiet he needs to add a power indicator to the next version. Also making an appearance in rev 2 will be a carbon filter to catch the fumes, but as [Nate] notes, better to spread them around for now than let them go directly up his nose.

Are you in the hacking arts for the long haul? Let’s hope so. If you are, make sure you’re up on the basics of mitigating inhalation hazards.

Repairs You Can Print: Nintendo 3DS XL Lives Again!

February 4, 2018 by 18 Comments

Handheld game consoles have a hard life, and even the most well-built models can sometimes fail. The Nintendo 3DS XL, for example, can fail at its hinge, which is what happened to the one owned by [Mark]. Would he fix the hinge? No, he had a far simpler if a little less flexible solution, a 3D-printed bracket that clips over the whole device.

Sometimes the best pieces of work are also the simplest ones, and this one certainly fits that bill on both counts. When your console dies, you want it fixed, and though this doesn’t extend as far as providing a working hinge action it should allow you to play without further damaging anything. It’s not impossible to imagine that it could be made to incorporate a flexible zig-zag section to produce a closeable hinge, but if your Nintendo is broken you’ll care little for such niceties. The project can be downloaded from its Thingiverse page.

A common failure that we’d expect to accompany a broken hinge would be a faulty flexible ribbon cable. Fortunately, those are fixable on the 3DS, too.

A Few Laser-Cut Cases For Your SBCs

February 4, 2018 by 17 Comments

Single-board computers, usually featuring ARM processors, have revolutionized the world of the hardware hacker over the last decade. The computing power you would have found in a desktop computer not so long ago, mounted on a small PCB and powered from a mobile phone charger.

With a few notable exceptions though, these single board computers are just that, boards. No cases in the pack, which has, of course, spawned a huge aftermarket of commercial offerings and a pile of homemade ones of varying sophistication. If these homemade offerings are your fancy then today’s link may be of interest, some very well-designed laser-cut cases from [Nick Smith] for a selection of popular and less well-known boards.

The Orange Pi Lite and Raspberry Pi Zero are both familiar enough, but one of the delights of writing for Hackaday reveals itself in the discovery of the more esoteric Marvell ESPRESSObin, an SBC with multiple network ports and serial ATA.

Are cases your passion? Step back in time for our round-up of case designs for the first Raspberry Pi.

Via Hacker News.

 

Beating Life-Force Amulet

February 4, 2018 by 17 Comments

It’s one thing to see science-fiction slowly become reality, but quite another to take that process into your own hands. Inspired by a movie prop, [Eric Strebel] decided to build himself a 21st science-fiction artifact: a pulsing, life-force amulet.

At the — aheam — heart of this amulet is a blinking LED circuit which [Strebel] modified into a slow pulse with the help of his friends. To add to the surreal quality of the amulet, he sourced a stone from a local gem show, bringing his circuit along to get an idea of what the final product would look like. Once [Strebel] had shaped the stone to a more manageable size, he took a polyester filler mold of its rear face to use as a base from which to cast a durable resin housing for the circuit.

[Strebel] is using a pair of coin cell batteries which fit snugly behind the glowing LED, and in case he ever needs to get inside the amulet, he’s attached the stone to the rear with sew-on straps — super-gluing them to each piece. He went for a bit of an industrial look for the necklace — a braided oil line with a modified quick-release clasp that works like a charm.

How does this amulet stack up to one from the 23rd century? You be the judge!

A 3D Printable Raman Probe

February 4, 2018 by 12 Comments

Scientific instruments are expensive. In a lot of cases, really expensive, so if you have spent any time in a well-equipped lab, the chances are that it would have been one backed up by the resources of a university, or a large company. Those experimenters who wish to pursue such matters outside those environments have traditionally had to rely on obsolete instruments from the surplus market. A fascinating endeavor in itself, but one that can sometimes limit the opportunity to pursue science.

It has been interesting then to see the impact of the arrival of affordable 3D printing on the creation of self-built scientific instruments. A fantastic example has come our way, [David H Haffner Sr]’s 3D printable Raman probe. A Raman spectroscope is an instrument in which the light scattered from the sample exposed to an incident monochromatic source is collected, as opposed to that reflected or transmitted through it. Scattered light can be a huge magnitude weaker than other modes, thus the design of a Raman probe is critical to its success. (If you are curious, read this multi-part explanation on Raman spectroscopy.)

This is a work in progress at the time of writing, but it still makes for an interesting examination of Raman probe design. Interestingly the sensor is a standard DSLR camera, which though not a cheap device is possibly more affordable than a more dedicated sensor.

This isn’t the first Raman spectrometer we’ve seen on these pages, we’ve also brought you a Fourier transform spectrometer, and plenty of more conventional instruments.

Towards Sensible Packaging For 3D Printer Filament

February 3, 2018 by 66 Comments

Filament-based 3D printers are remarkably wasteful. If you buy a kilogram of filament from your favorite supplier, the odds are that it will come wrapped around a plastic spool weighing about 250 grams. Use the filament, and that spool will be thrown in the trash. Very, very few products have such wasteful packaging as 3D printer filament, with the possible exception of inkjet cartridges or getting a receipt with your purchase at CVS.

For the last few years, [Richard Horne], better known as RichRap, has been working towards a solution to the problem of the wasteful spools for 3D printer filament. Now, it looks like he has a solution with the MakerSpool. It’s the perfect solution for a 3D printing ecosystem that doesn’t waste 20% of the total plastic on packaging.

The design of the MakerSpool is fairly straightforward and also 3D printable. It’s a plastic filament spool, just a shade over 200mm in diameter, consisting of two halves that screw together. Add in some RepRap ‘teardrop’ logos, and you have a spool that should fit nearly any machine, and will accept any type of filament.

The trick with this system is, of course, getting the filament onto the spool in the first place. Obviously, filament manufacturers would have to ship unspooled filament that’s somehow constrained and hopefully vacuum packed. Das Filament, a filament manufacturer out of Germany, has already tested this and it looks like they have their process down. It is possible to ship a kilogram of 1.75 filament without a spool, and held together with zip ties. Other filament manufacturers also have packaging processes that are amenable to this style of packaging.

Whether this sort of packing will catch on is anyone’s guess, but there are obvious advantages. There is less waste for the environmentalists in the crowd, but with that you also get reduced shipping costs. It’s a win-win for any filament manufacturer that could also result in reduced costs passed onto the consumer.