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Interview with Ryan Adams of the MaplePrintMini 3D printer

We love it when our community shares 3D printer upgrades, improvements or entire 3D printers on YouMagine. Ryan Adams did just that, he made his MaplePrintMini 3D printer and shared it with the world. We were curious about his machine and asked him how he made it. We were especially intrigued since apart from the electronics, screws and motors the MaplePrintMini is entirely 3D printed.

Ryan Adams leaning forward next to his MaplePrintMini 3D printer

Ryan Adams and his MaplePrintMini 3D printer

Why did you make this printer?

My original reasoning for this printer was to prove that I could design and build a printer myself. All of the printers I had owned up to that point (A Printrbot and MakerFarm Prusa i3) were built from kits, and I wanted to prove that I could design and produce a similar printer to theirs. I was also captivated by the idea of the RepRap project, and wanted to see how far I could take the project’s philosophy in designing this printer, with the end result being one which is, excluding mechanical components, almost entirely 3D printed.

How did you do it?

When I set out to design this printer, I had two main goals, the first that I be able to print as much of the printer as possible, and the second be that the overall foot print of the printer be less than that of a legal-sized sheet of paper. Strange, I know, but I wanted to keep the printer’s foot print small and portable. The design process was fairly straight forward, I set up my size boundaries, and designed the printer within those boundaries. I used AutoCAD for most of this process, and relied heavily on my own calipers, and rulers to measure mechanical components that I’d then model in CAD, and build the printer around. It had been several years since I last designed or modeled anything with this sort of scale, so it was very much a learning process for me, trying to remember how to model and design parts correctly. The preliminary design took place over the winter holidays, and took about 30 hours from conception to printable designs.

Did you design the whole thing in one go and then build it? Or was it more an iterative process of improving parts?

Throughout the initial design process, there was multiple times that I would spot an issue, or think of a better way of designing a part. The extruder carrier, and X-axis have probably gone through 4 or 5 revisions before I even thought about printing. The revisions were far more minor once parts were printed though. I tried my best to catch as many errors and flaws as I could while still in the design stage, so that I could minimize my printed waste and build the printer quicker. With the exception of 4 or 5 parts, every piece was printed the way it was designed initially. I was honestly surprised that when the build process begun, that parts fit as well as they did, and that most everything just seemed to work correctly. As the build progressed, I revised a few parts to aid in the assembly process, or in the case of the extruder, to add additional cooling, but for the most part, it was a straight forward build with very few issues.

What’s so special about it?

I think what sets the printer apart is its printable design. No component on this printer is larger than 195mm x 195mm, which allows anyone with a average sized 3D printer to print all the parts for this project on their own. I also feel it embodies the RepRap philosophy better than some other machines with which to the extent of how much of the design is printable. I admire printers such as the Prusa i3, MendelMax and others, but seeing their wooden and metal rod construction takes away from the concepts of a true RepRap, so I feel this printer is proof that it is possible to build a strong, accurate printer using almost entirely 3D printed parts.

What would I need besides the design files on YouMagine to build one?

Aside from the design files on YouMagine, you will need a 3D printer or someone with a 3D printer to print the parts. Expect the parts to take 60 or so hours to print, it’s a long job, but worth it when it’s done. Once you have printed all the required parts, you will need the ‘standard’ mechanical components which consists of the usual NEMA 17 steppers (in this case, 36 oz smaller units are used), 8mm linear rod and LM8SUU linear bearings. You will also need about a meters worth of GT2 belt, and 16 or 20 tooth pulleys, 4mm threaded rod and couplings for the Z axis as well and you will also need 3 micro switches for the end stops. Extruder wise, I used a Printrbot Aluminum extruder, and a Ubis hot end, though you could mount your own direct drive extruder and hot end of your choice. Electronics wise, your choice of controller, RAMPS or a printrboard should fit in the enclosure. Lastly, you will need screws, a lot of them. There are about 150 M3x10 socket cap screws used, and about 30 M5x20 socket cap screws as well.

A purple 3D printed shark form Shark test piece made on a MaplePrint Mini.

Shark test piece made on a MaplePrint Mini.

What kind of print results do you have?

Print results have been fairly decent given the relative state of calibration that it has received. I was very pleased that upon printing my first calibration cube, that the dimensions were accurate in both the X and Y axis, and that the details and layer heights seemed well defined. Subsequent prints such as Mr. Jaws have pretty well defined detail in the teeth and corners, and came out better than I was expecting. I’m still tuning the printer, and calibrating the e-steps and extrusion, so there are still improvements to be made, but overall, the printer prints better than some of my first prints on other machines.

What software did you use to design it?

All of the design was done in AutoCAD 2015. I prefer the work flow and familiarity of AutoCAD over that of Inventor or Solidworks. All of the mechanical components were modeled in AutoCAD as well. Before printing, I ‘plated’ the entire model, that is, disassembling my design into ‘plates’ of correctly orientated parts that could be exported to STL’s and printed. This saved a lot of time later on and removed the need to have to manipulate or optimize the part in my slicer.

What firmware does it run?

The printer uses a stock RAMPS 1.4 controller running ErikZalm’s MarlinFirmware. I selected Marlin over others for its configurability and simply configuration. Total time from downloading, modifying, flashing, to printing, was about half an hour.

What was the most difficult part of making the printer?

Probably the most challenging part of the entire process was printing the frame. Each frame panel required 5 hours of print time, which given my daily schedule made it difficult to fit these prints in. It meant that these pieces were printed on weekends and days off, which in turn delayed the entire process. Aside from that though, the process was fairly straight forward, if I had any other complaints about the process, it would be the almost-insane amount of screws required in the build. I wanted to ensure the printer was structurally sound and rigid, so I designed it with many mounting points, but it was only when I started building the printer did I realize juts how many I had used!

MaplePrint Mini 3D printer printing.

MaplePrint Mini 3D printer printing.

Where do you hope to go from here?

Well I’m on to bigger and better things already! Shortly after finishing this printer, I embarked on the design of its successor. While I’m pleased with how this printer came out, I recognize that there is still a lot of room for improvement and optimization. Now that we know it’s possible to build a printer from almost entirely printed parts, I’m again using this approach for version two. I’m finalizing the design now, and hope to be printing parts for it in the next week. I will again be publishing my progress and design, and releasing the designs for the printer on YouMagine shortly, but I can promise that it will have a much larger build volume, and equally small foot print, improved rigidity, and far fewer parts to print and assemble. Aside from that, I hope I can continue to design and release printers, components and upgrades that further the RepRap project, excite current 3D printer users, and introduce new users and designers to the amazing industry of 3D printing!

Introducing the YouMagine Team: Erik de Bruijn

 When did you start with 3D Printing? 

Back in 2008 I discovered the RepRap project, looking for a circuit diagram. When I found a wiki with a schematic that was open source (hardware) I discovered that the rest of wiki was about making a 3D printer that could make parts to improve itself, I happily volunteered to help that machine ‘evolve’. Of course that was easier said than done. By may 13th I had done my first print and a few days later I started replacing parts.

First sip, a nice Bacardi shot.
The 3D printed mini mug.stl!
First functional printed part!
Printed the optoswitch bracket as end-stop for the Z-axis.
 What drew you to it? 

I already have a special thing for open source. Also, I like how technology can impact on prosperity and wealth especially if it’s in the hands of many people. My dad taught me to solder and make electronics first from a kit and then my own circuits, later he taught me how to program in basic. I kept playing with these things from that point onward.

When I found the RepRap project, it involved 3 types of things: action, shared learning and meaning. Action is “building stuff”. Shared learning means collaborating and developing knowledge. Finally, it has meaning because we’re fundamentally changing who can have access to an increasingly powerful technology. It’s great to work on something and ponder on the implications on wealth and the economy.

The right ideas can have little impact without action. And they’re never good ideas if you don’t continuously learn and meet people with other perspectives.

When did you join the RepRap project?

In March 2008 I started sourcing parts. Immediately after I’d decided that this was the project for me. I also started blogging about it as soon as I started, because I believe the ideas and ideals are as important as taking action.

Why? 

I was in my graduation year at the faculty of economics, and RepRap was the perfect way to justify avoiding my studies. But in order to graduate and work on RepRap at the same time I needed some help, which I got!

The visionary MIT professor Eric von Hippel wrote about open source and open hardware way before 3D printing was well-known.

“In a sense, hardware is becoming much more like software, up to the point where you actually fabricate an object,” von Hippel says. “That’s why you’re starting to see open source techniques in hardware. Design is largely going to shift out from manufacturers to the communities.”

Through my role with RepRap and Ultimaker I had the opportunity to talk to the leaders in their respective fields, like von Hippel, Yochai Benkler, Glyn Moody, Frank Piller, etc. This was fascinating by itself, but writing about it helped me connect the dots between their work.

Von Hippel helped me convince my university board and I graduated.

Officially, my thesis was about the viability of the open source development model for the design of physical objects (PDF). In short it investigates why this community works and how fast it’s expanding.

What did you do?

Since 1999 I had founded two IT companies, LowVoice and BudgetDedicated. I learned how to (not) do business, Linux, sever management, virtualization and how to develop your own rack-mounted electronics for datacenters. When RepRap came on the radar, the earlier companies gave me the opportunity to work on that for a while without needing a job on the side. With time and the urge to learn more you can do remarkable things!

How did end up making the Ultimaker?

Ultimaker Founders

Ultimaker Founders

I met my co-founder Siert Wijnia in Amsterdam at workshop for developing green technology (pic 12). There I told someone that I had built a 3D printer and Siert later found out. Siert was setting up the first FabLab in the Netherlands, called Protospace. Martijn Elserman, the other co-founder was one of the first to enter this new lab with amazing digital production machines. The FabLab even had a 60k euro 3D printer from Z-Corp! Siert asked me to show people the RepRap printer and wanted to know whether it would make sense to build them in groups. I told people they shouldn’t start if they wanted nice prints, but they should if they liked to tinker with a wide array of technical disciplines. Everybody there said yes, started building RepRaps and it was exciting! Some had electronics knowledge, others more mechanical, etc. We learned by doing and solved a lot of problems along the way. Martijn joined because he had knowledge on how to make moulds from Z-Corp 3D prints from his first visits to the FabLab. The Z-Corp prints were too fragile and too expensive to be used for making the RepRap, and we didn’t have enough printing capacity to make them with my RepRap. Eventually I printed about 5 sets of parts before I got fed up with that.

The process of making RepRaps took a long time (mind you, between 2008 and 2010 it could be tedious). Martijn had learned about the laser-cutter at the FabLab and decided he would buy one for his home. He made the first Elserbot frames based on inputs from Siert, myself and others. Later we decided to call it the Ultimaker Protobox, the precursor of the Ultimaker Original. When we were getting a lot of requests for kits, we decided to start a company. It seemed like a great opportunity to work on 3D printing full-time (which we were, but making a living from other sources). Eventually you end up spend a lot of time on building a company, not on 3D printing, but with really smart people around you, you can always keep learning.

What do you think the main advantages of 3D Printing are?

It lets you see the world as a place that you can shape to your desire. In software this was already true, you could change things you don’t like by building virtual stuff. To build real stuff, you need to be good with your hands or need a 3D printer. It used to be either expensive or very difficult to make physical objects, with 3D printing this is changing rapidly. Also, it allows you to collaborate (digitally) with people across the world on a real physical object. Perhaps some niche object that just a few people care about, but there are many niches, and the can all reach critical mass as more barriers to entry are removed. Already, many of today’s hardware projects wouldn’t happen without 3D printing. And there are many non-niche things that matter, like the e-Nable project (3D printed custom fitting prosthetics) can find a distributed network of designers, medical professionals, 3D printers, programmers and many other kinds of volunteers. That is an incredibly powerful mix.

I think that a 3D printer can reinvigorate something that we’ve lost during the second industrial revolution. We became consumers and we’re outsourcing design, control and manufacturing of the tools we use. We should be back in the driver seat. And by sharing we can build better things, to which everyone will have access. It’s more than advantages, it’s a fundamental step forward.

Why YouMagine?

Now that we have powerful technology to create, we need a place to share and collaborate!

What are the founding principles of YouMagine?

I’m personally on a mission to encourage people to share more, to empower others and to allow global collaboration. The technology to create things, in the hands of the many can lead us into a new age of innovation and prosperity. YouMagine could play a large role in this. Also, I wanted there to be a place where I would personally like to share things that I’ve made. From before it became part of Makerbot until recently, I’ve been a huge advocate of Thingiverse. Me and many maker/RepRap friends believe we’ve helped make it happen. But now Thingiverse isn’t what it used to be. There has to be a good place to share, and I intend to make YouMagine as friendly as possible and stick to our ideals.

What are the main problems with 3D printing?

People are still creating things in isolation. Their source files are on their local drive. I want 3D design to become more of an online experience. We’ve build YouMagine to support this and are releasing the first features in the upcoming weeks. Also, people share STLs but don’t always share the original files. We want to change that and encourage people to share those, so the next person can take it to the next level.

What is the future of 3D printing?

Recently I’ve had the pleasure to speak with Eric Drexler, a pioneer in molecular nanotechnology. He said that the tools of 3D printing are not that different from those that will be used for the design of nanotechnology. When 3D printing becomes a process at the molecular scale, that can create radical abundance. He and I had both concluded that 3D printing is paving the way for real nanotechnology and the radical abundance that it can create. Not the kind of nanotechnology that keeps shoes from getting dirty, but the kind that cures most diseases, creates an abundance of energy can restore global climate problems and enable interstellar space travel. At the same time he says:

“imagine a world where the gadgets and goods that run our society are produced not in far-flung supply chains of industrial facilities, but in compact, even desktop-scale, machines.”

  – Eric Drexler

3D printing is just the beginning but the concept is very similar to what will come after it: Nanotech!

Do you have any hobbies? Or only do 3D printing? 

Besides this and 3D printing I like to with electronics and software. I’m fascinated by toolchains that go from idea to thing mediated by software, internet technology, people. I’m also concerned about global warming.

A lot of things do revolve around 3D printing, but I have a beautiful wife and 8 month old daughter. The most amazing creations are still made by nature!