Via
Minnesotan man builds the world's first 3D printed concrete castle in his own backyard, designing a kit that can print two-story houses
In Minnesota, contractor Andrey Rudenko is currently working on a project of gargantuan proportions that seems to be stretching and exploring the limits of 3D printing technology. Using a printer that was substantially modified and expanded, he has printed a concrete castle in his own backyard. And at 3 by 5 meters, this concrete structure is the world's first 3D printed concrete castle, and one of the largest objects that has, up till now, ever printed with 3D printing technology.
Rather than trying to build a machine that caters to theme parks and history enthusiasts, this project grew out of a desire to construct a 3D printer capable of constructing durable, realistic and inhabitable houses. He's already looking at various locations to realize this: "last winter in Minnesota, which was long and frigid, showed that it is crucial to have multiple areas in different countries for experimental printing since you can never predict which conditions will arise."
But Rudenko, who has a background in engineering and architecture, chose to firstly print his fantastical castle. This allows its creator to search for and experiment with the limits and possibilities this machine offers to construction companies. The castle's unique features and shapes offers many challenging opportunities to do this, and leave room for Rudenko to make minor adjustments to the machine. And of course, it's also a wonderful showpiece for his huge 3D printer.
As Rudenko told 3ders.org, this project follows years of preparation and planning:
"I've been interested in this technology since I was in my teens. My concrete printing experiments started about 20 years ago, but at that point, advanced computers and software were not available for this type of technology. It wasn't until a couple years ago that I came across the RepRap project and started working on this machine again. It took about a year to build and develop special concrete mixes. Additional inspiration came from the naturally-laid layered sandstone I saw on a trip to Arizona a few years back. Ideally, I hope I can obtain the same natural look to my printed walls."
Furthermore, progress was also hampered because of the finances involved. Rudenko therefore ended up financing the printer independently, which led to many creative engineering solutions.
"When I was starting out, potential sponsors were wary of providing funds since they did not think the technology would go this far. Once the castle structure is built and the capabilities of the printer are evident, I plan to conduct an auction of the ownership to the first house; since this will be the first functional 3D printed house ever built, I'm hoping there will be a lot of takers and this will become a valuable landmark."
"When I was starting out, potential sponsors were wary of providing funds since they did not think the technology would go this far. Once the castle structure is built and the capabilities of the printer are evident, I plan to conduct an auction of the ownership to the first house; since this will be the first functional 3D printed house ever built, I'm hoping there will be a lot of takers and this will become a valuable landmark."
A project of this size obviously needs a printer of corresponding proportions, and Rudenko necessarily built his own machine. While he has received lots of very helpful feedback from the RepRap community, the actual construction was of his own design. This massive machine is driven by Arduino Mega 2560 board and software, which is not too different from some other 3D printers, but it requires special stepper drivers "For a big printer, I need special drivers that can handle the heavy weight of the machine as well as be compatible with the software/firmware. The best fit I found was from James Newton's Mass Mind."
'These drivers ended up being the only ones to work properly with Marlin Firmware (I sampled other drivers, which failed), and were powerful enough to move such a huge printer.' Rudenko added.
'These drivers ended up being the only ones to work properly with Marlin Firmware (I sampled other drivers, which failed), and were powerful enough to move such a huge printer.' Rudenko added.
This printer is therefore slightly different than the one developed by Behrokh Khoshnevis at USC. "Design-wise, I'm creating a natural, free-layering of fine concrete and my goal is to have a nice-looking, natural texture, without the need for any additional finish, similar to rammed earth technology.' Rudenko is also seeking to develop a portable machine that even smaller construction companies can afford. 'The final price will be known once we build a few houses, but to the best of my knowledge, I currently see it as being priced at $30,000-50,000, though this will also vary depending on the parts and type of model."
When that time comes, Rudenko hopes to be able to deliver a number of different kits that individual customers and small companies can put together themselves. "Obviously I can't ship the whole machine, but I can ship an extruder, control box, some major parts, etc to help individuals put together their own version." Khoshnevis's printer, on the other hand, at least appears to be heavier and larger, and Rudenko expects that only large-scale construction companies will be able to afford it.
The building process of this 3D printed concrete castle is now complete, but it's also a learning process for Rudenko's future plans. He's currently printing approximately a layering of 50 centimeters per day, though the size and width of the layers vary throughout the construction. Regular layering is being printed at 30mm width by 10mm height, but Rudenko can print layers of virtually any size. "For special areas like crown moldings, I am reducing the height to 5 mm; I'm also reducing speed in delicate arias."
Of course, a construction of this size requires the right materials to sustain the sheer size and weight of the concrete.
Rudenko said, "Layering cement was an extremely difficult task- it required extensive tuning of the printer on a programming level, as well as using exact quantities for the cement mix. While testing the printer, I ran into obstacles (such as the nightmare of the extruder clogging) and discovered even further abilities of the printer, like that it can print much more than 50cm a day as I originally thought."
Rudenko therefore resorted to including rebars in the bottom and top walls. 'They are needed during the pouring of a variety of cementitious filling materials inside the printed walls." The cement used, however, is just a regular cement mix with a few additives. 'It is possible to use a special quick-setting concrete to speed up the process, but it will affect the cost, and I don't see much reason to build a house extremely fast at the expense of higher cost and lower quality."
Instead, Rudenko is after quality and new possibilities. "The more important advances of this technology lie in its architectural possibilities and energy-efficiency. Architects have waited many years for this technology, and now that it's here, this opens up a whole window of possibilities; soon, we will see new kinds of architecture used to construct new structures."
This Minnesotan constructor is seeking to a part of this: "I plan to concentrate on the development of further 3D printing technology in construction and building a community/network of people worldwide interested in research and development of this technology, with the possibility of providing DYI kits as well as a full line of model construction printers."
For now, however, printers that are suitable to construct homes and be commercially viable as well are still in the distant future. But Rudenko is optimistic about the possibilities for both his device as well as this industry. "My current standard is 10 millimeters in height by 30 millimeters in width, but countless other options are available with just the click of a button." he said.
Rudenko is in the process of redesigning the printer based on the lessons learned. His goal will be to have an upgraded printer that prints 24 hours a day until the project is finished.
"I'm also planning to print the structure in one piece; printing the castle turrets by themselves was a bad idea as they were extremely difficult to lift and place. Additionally, I've figured out how to print a roof; the only thing is that the material I'd print with would have to be used in warmer climates for now."
Rudenko's next project is a real full-scale livable house. "The amount of correspondence I am getting proves high demand and interest in this new technology. I want to make sure that for the next project, I have the right team doing the job to fully use all of the benefits of the 3D printing machine."
"I am open to offers from individuals or companies interested in owning the first house of this type built with the newest 3D printing technology and ready to provide abundant funds to completely cover the project and all its expenses. The interested party needs to own the lot/site and possess a permit for a house built by 3D Printing technology." Rudenko would also like to collaborate with the interested architects, designers, and software engineers experienced in 3D tools. And you can contact him via this email for further questions.
It has been two years since Rudenko first began toying with the idea of a 3D printer that was capable of constructing homes. 'I have previously been sure I could print homes, but having finished the castle, I now have proof that the technology is ready.' Rudenko said.
"The current prototype I am working on at the moment is just a small part of the line of printers I am designing. We are talking about the beginning of a new era in construction industry. There is still much to be done."
Related VIDEO's here:
No comments:
Post a Comment