Results tagged “3D printing”

Engineers at NASA Ames Research Center have begun experimenting with 3D printers for some spacecraft design. CNET's Sumi Das visits one of its newly open workshops -- filled with state of the art equipment.

"The latest in cutting-edge manufacturing is already making a significant impact in the future of space exploration. Pratt & Whitney Rocketdyne of Canoga Park, Calif., the prime contractor for the J-2X engine, recently used an advanced 3-D printing process called Selective Laser Melting, or SLM, to create an exhaust port cover for the engine. SLM uses lasers to fuse metal dust into a specific pattern to build the cover, which is essentially a maintenance hatch for the engine's turbo pumps." More

San Francisco - (March 8, 2013) - Today DIYROCKETS and Sunglass are announcing a partnership to launch the world's first open source competition to create 3D printed rocket engines through collaborative design.

The competition opens for registration at South By Southwest (SXSW) on March 9, and challenges makers, designers and space entrepreneurs to create open source rocket engines that will serve the growing market for small payload delivery into low earth orbit and ultimately, disrupt the space transportation industry.

Although several companies have recently made strides in showcasing the power of the private sector in space exploration, DIYROCKETS is taking this a step further by creating the first of many competitions that encourages the fusion of creativity, technology and collaboration by people across the globe. Utilizing Sunglass's cloud-based platform to visualize, collaborate, manage versions and exchange feedback on each design with team members and the public from anywhere on the globe, the contest aims to dramatically drive down design costs, while creating innovative technology for all types of space hardware and parts, ranging from space propulsion to space medical sensors. Teams will have the freedom to work in a 3D design environment of their choice such as SolidWorks, Autodesk Inventor, Rhino or CATIA, while syncing their project to the Sunglass cloud.

"Setting up a lunar base could be made much simpler by using a 3D printer to build it from local materials. Industrial partners including renowned architects Foster + Partners have joined with ESA to test the feasibility of 3D printing using lunar soil. "Terrestrial 3D printing technology has produced entire structures," said Laurent Pambaguian, heading the project for ESA. "Our industrial team investigated if it could similarly be employed to build a lunar habitat." Foster + Partners devised a weight-bearing 'catenary' dome design with a cellular structured wall to shield against micrometeoroids and space radiation, incorporating a pressurised inflatable to shelter astronauts. A hollow closed-cell structure - reminiscent of bird bones - provides a good combination of strength and weight." More

Setting up a lunar base could be made much simpler by using a 3D printer to build it from local materials.

"Imagine landing on the moon or Mars, putting rocks through a 3-D printer and making something useful - like a needed wrench or replacement part. "It sounds like science fiction, but now it's really possible," says Amit Bandyopadhyay, professor in the School of Mechanical and Materials Engineering at Washington State University."

NASA GRC Solicitation: Curiosity Rover Scale Models

"NASA/GRC has a requirement for two (2) high quality 1/10th scale models and one (1) 1/5th scale model of the Curiosity Rover. NASA/GRC intends to purchase the items from Scale Model Company on a sole source basis due to the proprietary restrictions on drawings."

Keith's note: "Proprietary restrictions on drawings"? Gee, I wonder were this company got the data for the drawings of Curiosity in the first place? (Likely) answer: one way or another it all comes from NASA - even if the company did additional work on the drawings for their own uses. Too bad NASA has to spend lots of money on these models. There is little, if any, incentive at NASA to find cheaper ways to procure things like this since the expensive way is the way things have always been done. I wonder how much they are paying for these models? If I ask NASA PAO what the models cost they will almost certainly refuse to tell me and will make me file a FOIA request.

More or less every NASA center has 3-D printers these days and is experimenting with 3-D printing of satellite and rocket engine components. Why not take NASA's Curiosity drawings and make them open source? There's a large, growing DIY / "Maker" community who'd just love to do this for free. Then anyone (including NASA) can just print the models out - at a variety of scales - in a variety of materials - on an as-needed basis. Not only would this provide a huge audience with a chance to get a more intimate understanding of how these rovers work, it would also end up costing less money to make these models that NASA just loves to spend money on.

That said, I am sure the ITAR enforcers will find reasons why you can't release things like this - even if the schematics simply show the outside of components - not their internal design. Yet nothing stops a company like Scaled Model Company from producing a model on their own - one of sufficient fidelity that NASA itself wants to buy it.

- 3D Printed CubeSat, Fabbaloo
- PrintSat - An Amateur Radio 3D Printer CubeSat, Southgate
- 3D Printing of cubesat structure, YouTube
- NASA 3D prints rocket parts -- with steel, not plastic, ExtremeTech

MakerBot(R) Industries introduces the MakerBot(R) Replicator(TM) 2 Desktop 3D Printer, the company's easiest, fastest, and most affordable tool yet for making professional-quality models. Designed for the desktop of an engineer, researcher, creative professional, or anyone who loves to make things, the MakerBot Replicator 2 features 100-micron layer resolution, setting a new standard in professional looking models and true-to-life replicas. In addition, the MakerBot Replicator 2 enables users to make big objects, up to 410 cubic inches in volume (11.2" L x 6.0" W x 6.1" H).

3D-Printer with Nano-Precision (with video), Vienna University of Technology

"Printing three dimensional objects with incredibly fine details is now possible using "two-photon lithography". With this technology, tiny structures on a nanometer scale can be fabricated. Researchers at the Vienna University of Technology (TU Vienna) have now made a major breakthrough in speeding up this printing technique: The high-precision-3D-printer at TU Vienna is orders of magnitude faster than similar devices (see video). This opens up completely new areas of application, such as in medicine."

In New Mass-production Technique, Robotic Insects Spring to Life, Harvard University

"A new technique inspired by elegant pop-up books and origami will soon allow clones of robotic insects to be mass-produced by the sheet. Devised by engineers at Harvard, the ingenious layering and folding process enables the rapid fabrication of not just microrobots, but a broad range of electromechanical devices. In prototypes, 18 layers of carbon fiber, Kapton (a plastic film), titanium, brass, ceramic, and adhesive sheets have been laminated together in a complex, laser-cut design. The structure incorporates flexible hinges that allow the three-dimensional product--just 2.4 millimeters tall--to assemble in one movement, like a pop-up book."

Keith's note: Imagine if NASA could achieve packing density for its spacecraft like this - especially for landers. On Mars, for example, swarms of flying probes, covered with photovoltaic materials, armed with sensors, could fan out from a landing site to take measurements. Or a larger glider or balloon coudl release them over a larger area and have them report data back while they are within communications range.

Flight Assembled Architecture/Architectures volantes from FRAC Centre on Vimeo.

Flying Machine Enabled Construction, ETH

Keith's note: One would think that the software developed by this team could be adapted to robots operating in space to assemble large structures such as solar power satellites or on the surface of the Moon to construct a lunar base. Indeed, you could take 3D printing software and scale it up such that you use remotely operated droids to "print out" a base on the moon using local materials.

Replicators Have Arrived, Paul Spudis, Air & Space

"Of all the wonders depicted in science fiction books and movies, one of the most intriguing is the machine that makes anything that you need or desire. Merely enter a detailed plan, or push the button for items programmed into the machine - dials twirl, the machine hums and out pops what you requested. Technology gives us Aladdin's Lamp. A handy device that will find many uses. We're not quite there yet but crude versions of such imagined machines already exist."