Hasta La Gadget!

Two of the biggest challenges with today’s desktop 3D printers are that they 1) don’t print very large objects and 2) are painfully slow. The Solidator 3D printer aims to change both of those things, in a printer that costs less than $5,000.

In the example shown above, the Solidator 3D printer was able to output a set of six Eiffel Tower models – each measuring almost 8-inches-tall – in just 5.5 hours. A similar feat on typical 3D printers would take days.

By using DLP imaging technology to print an entire layer at a time instead of a voxel at a time, the Solidator is able to print at dramatically faster speeds than most desktop 3D printers. This method of 3D printing involves using a vat of liquid resin that is designed to harden when exposed to bright light. Software converts 3D objects into slices, and then the projector exposes the photosensitive resin. Each razor-thin layer of resin hardens in about 10 seconds, and then the Z-axis of the printer moves.

The Solidator has a large output area, measuring 11.02″ W x 8.26″ D x 7.87″ H (716.37 cubic inches). For comparison’s sake, the print area of the industry-leading MakerBot Replicator 2 is 11.2″ W x 6.0″ H x 6.1″ H (409.92 cubic inches). Print resolution for the Solidator is also very good, with a typical layer height of 100 microns, though the z-stepper motor can move in increments as small as 10 microns. That said, 30 microns is the thinnest that can be printed with current resin technology. One limitation is the pixel density of the DLP projector, which reduces X/Y resolution to 270 microns – so objects printed with the Solidator aren’t as precise as those made with some of the better PLA and ABS printers out there.

But for many of us, our time is far more valuable than a couple of hundred microns of detail. If you need to create large numbers of small 3D printed parts, or if you need to crank out lots of prototypes, the Solidator could be a godsend. Since the printer’s Z-axis is where all the time comes in, the shorter your objects are, the less time they’ll take to produce. I can imagine cranking out dozens of 3D printed gears in just minutes on a device like this.

Resin for the printer will sell for as little as $50(USD) per liter, and will eventually come in a variety of colors. As an added bonus, the resin is quite durable when hardened. In fact, Solidator’s creators demonstrated the durability of printed parts by running them over with a car.

The Solidator 3D printer is available for pre-order via Kickstarter for $4950(USD) through January 3rd, 2014. While that’s certainly not chump change, it’s an impressive price for a printer capable of attaining such speeds, and with such a large work area.

3D printing has been used to print a variety of objects — firearms, casts, limbs, food. One of the most recent uses falls into the more altruistic efforts, with researchers … Continue reading

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Perhaps the most exciting area of technological growth for the early 21st century is in the realm of machines which make it fast, inexpensive and easy for anyone to create physical objects. Devices such as 3D printers, laser cutters, tabletop milling machines and other computer-controlled manufacturing tools are now within reach of small business entrepreneurs and hobbyists, and are headed towards the consumer market as well.

10 years ago, the idea that you or I could have a device that could output tangible goods or replacement parts on our desktops was just a pipedream. But rapid advancements in technology, as well as enthusiasm of startups and early adopters have created a cottage industry filled with 3D printers and other desktop manufacturing machines.

Devices like the $2,000(USD) MakerBot Replicator 2 serve the prosumer market, while upcoming machines like the Pirate 3D Bucaneer are expected to hit consumer desktops in early 2014 for as little as $600. Both are capable of creating 3D models with tremendous precision.

Earlier devices required a lot of fiddling about, frequent manual calibration and complex software setup. Now, the software is getting easier to use, and loading in a model to print only requires a basic understanding of 3D modeling. And if you don’t know how to do that, you can always download free models from sites like Thingiverse.

Most desktop 3D printers work by melting PLA or ABS plastic in a tiny bead, moving along the X and Y axis first, then building up layer by layer along the Z axis. Eventually, a fully-formed 3D object is revealed. It’s a time-consuming process, but the technology allows for the construction of incredibly detailed and complex structures that would be extremely difficult if not impossible to model by hand or using traditional machining tools. For example, check out the 3D printed menagerie I have hanging on my living room wall:

But desktop manufacturing cannot just rely on melted plastic alone. While professional-grade 3D printing services like Shapeways can print molds which can be filled with metal or ceramic clay, these techniques are a bit more difficult to achieve on the desktop. Though there are products on the market like Composimold which let you make molds from 3D printed objects. That said, there are companies working on desktop 3D printers that can actually print in unconventional materials, ranging from molten metal to sugar.

If you want to work with metal or wood today, you might be better off using a desktop milling machine, like the Shapeoko 2, which sells in kit form for just under $700 with all the parts needed to assemble it.

This device has a similar X/Y/Z armature system similar to that found in 3D printers, but instead of holding a heated print head, it can hold a Dremel or similar rotary tool. 3D milling machines work subtractively, rather than additively, so you start out with a solid hunk of wood, plastic or soft metal, clamp it into place, and let the machine cut away a form. This technique is especially effective for routing out objects like signage with true depth. In this example, a digitized brain scan was routed out of a piece of wood. Neat, eh?

You can even use a milling machine to cut materials like carbon fiber, as is demonstrated with this cool gear clock by Bart Dring:

In addition, these machine can be used to gently scrape away layers on copper board, so you can use it to make custom circuit boards. Keep in mind that 3D milling machines aren’t as precise as 3D printers, nor can they create details on the bottom of objects as they require that the working material be clamped in place and then cut out from above.

One other kind of desktop machine is the laser cutter. These machines use high-power lasers to cut or engrave images out of sheet materials. Companies like Full Spectrum Laser offer both prosumer and professional grade laser cutters, with prices starting just under $2000.

Since laser cutters only work in two dimensions, outputting to them is as easy as using a desktop printer. You simply create an outline of an object in a drawing program on your computer, then load in a sheet of wood, cork, fabric, acrylic or Plexiglas and let the laser get to work. They also work very quickly compared to 3D printers as a result. By adjusting the laser intensity, you can either cut objects, or burn engraved images into materials.

Objects like these video game console ornaments by UseYourDigits are some of my favorite examples of what can be made with a laser cutter:

While desktop manufacturing machines are still in their relative infancy, I truly think we are on the precipice of mass adoption of these devices. Shops like Inventables and the Maker Shed have popped up, offering one-stop-shopping for both the machines and materials, making it easier than ever before to get started.

As the speed, cost and availability of these devices broadens, it’s only a matter of time before we’ll be outputting just about anything we can dream of on our desktops.

Disclosure of Material Connection: This is a “sponsored post.” Technabob received compensation for writing it, however, we only recommend products or services we find newsworthy or have used personally, and believe will be good for our readers.

Thank you to Sprint Faster and Technorati Media for being sponsors of this article. All opinions expressed here are my own.

A company known as 3D Systems, which from its name itself can be said to be heavily involved in the world of 3D printing, has just reported itself to have purchased a portion of Xerox. Now, 3D Systems might not be familiar at all, but Xerox – that is a name that surely just about everyone is able to remember, especially when it comes to making multiple copies of the same document.

Before we continue a little bit further, 3D Systems is not exactly a budding company which was formed just last week. Sure, they might not be as famous as the likes of a MakerBot, but it has been around for approximately 30 years, having been founded by the inventor of the rapid prototyping technology which would eventually result in 3D printing. The entire acquisition cost $32.5 million, and it will also involve a segment of Xerox’s solid ink product design, engineering and chemistry team in Oregon. That translates to slightly more than 100 folks from Xerox joining 3D Systems after this acquisition. It is most likely that the team itself, the various laboratories as well as the intellectual property involved will deliver the most heavy hitting impact (a positive one to boot) on 3D Systems’ growing industrial segment. [Press Release]

3D Systems Pick Up Part Of Xerox original content from Ubergizmo.

Artec, makers of high-end 3D scanners for industrial clients, have added a little whimsy to your day with Shapify.me, a service that can scan and print your body in full color, allowing you to make a little mini me of your very own.

The system uses the Kinect Sensor – it works with either the Kinect for Windows or Kinect for Xbox 360 – and allows you to scan your entire body using a PC or Mac. The software then lets you download the scan for 3D printing or order the print for $59. Prints are available in the US and Canada but more countries are coming soon.

Capturing the image is a little tricky – there are a lot of lighting issues and lots of turning – but the service seems to be outputting smooth, usable scans. Arguably these aren’t as beautiful as some other services we’ve seen including the incredible Twinkind but because you’re depending on a fairly low resolution system like the Kinect and limited processing power it’s easy to forgive some of the elisions in the model.

I’ve learned that 3D scanning is hard and anything that makes it easier is a good thing. While it might be a little late to give a Shapify figurine to your dear old mother and father, it’s definitely a fun little toy and could be an interesting tool for home hobbyists. Besides, who doesn’t want a 3D selfie?