Showing posts with label space. Show all posts
Showing posts with label space. Show all posts

ESA 3D Prints Moondust Bricks for Space Colony Construction

Space colonies will be built with 3d printers. We will never see bricklayers and construction workers in space suits.





Technology description:
Bricks have been 3D printed out of simulated moondust using concentrated sunlight. This ESA project took place at the DLR German Aerospace Center facility in Cologne, with a 3D printer table attached to a solar furnace, baking successive 0.1 mm layers of moondust at a temperature of 1000°C. A 20 x 10 x 3 cm brick for building can be completed in around five hours.
DLR Cologne’s solar furnace has two working setups: as a baseline, it uses 147 curved mirror facets to focus either actual sunlight into a high temperature beam, employed to melt together the grains of regolith. But this mode is weather dependent, so a solar simulator was subsequently employed as well – based on an array of xenon lamps more typically found in cinema projectors.

ESA project homepage:

http://www.esa.int/Our_Activities/Space_Engineering_Technology/Printing_bricks_from_moondust_using_the_Sun_s_heat





First Space 3D Printed Art Piece

Astronauts on International Space Station 3d printed a first space art object named "Laugh".

From project description:
#Laugh is a collaboration between Israeli artist Eyal Gever and the California-based company Made In Space, which owns and operates the Additive Manufacturing Facility (AMF), the ISS' commercially available 3D printer.

The project began Dec. 1, 2016, when Gever and his team launched an app that converts the sound waves of users' laughter into a digital 3D model, or "laugh star." More than 100,000 people generated their own laugh stars throughout December, Made In Space representatives said.

App users then voted on their favorite laugh star. The winner was Naughtia Jane Stanko of Las Vegas, whose model was beamed up to the ISS and printed out Friday

Laugh 3d printed sculpture floating in ISS microgravity with Earth showing trough the observation window. Source: NASA






























Source article with much more information:

http://www.space.com/35723-first-3d-printed-art-space-station.html

3D Printable Astrophotography with RasPi Zero

If you are interested in astrophotography and you want to make a low cost DIY setup here is a great project. Greg Holloway developed a Raspberry Pi Zero based wireless camera for a 1.25" telescope eyepiece receptacle with 3d printed casing. It is battery powered so you can take it in the wilderness to observe the stars.





































Full project description, all the files and software can be found at:

http://www.instructables.com/id/Astrophotography-With-the-Raspberry-Pi-Zero/?ALLSTEPS

https://www.thingiverse.com/thing:1892757

He also developed a 3d printable solar filter case:

https://www.thingiverse.com/thing:1904985

Star Track 3D Printable DIY Astronomy Pointer and Tracker

Görkem Bozkurt developed an Arduino powered astronomy pointer and tracker that can be made on a DIY 3d printer.
It could probably be customized to move a small telescope or asrophotography setup.

He described his project as:
Star track is an Arduino based, GoTo-mount inspired star tracking system. It can point and track any object in the sky(Celestial coordinates are given as input) with 2 Arduinos, a gyro,RTC module,two low-cost stepper motors and a 3D printed structure.

Do keep in mind that lasers are dangerous and that there are strict laws against pointing at airplanes.




Very detailed build guide can be found at:

http://www.instructables.com/id/Star-Track-Arduino-Powered-Star-Pointer-and-Tracke/



MADspace Advanced Robotics System 3D Printable Rover

The MADspace Advanced Robotics System (M.A.R.S.) rover is a 3D printable space exploration rover. It can be used in education, DIY science and development.




























Key features:
  • 6 driven wheels of which 4 can steer (pod wheels)
  • Rocker bogie suspension (semi-active, 2 shoulder servos)
  • Gyroscope
  • 16 channel I2C PWM driver
  • Raspberry Pi
  • 2 logitech c270 webcams with pan/tilt
  • Web interface written in web.py
  • Two 10Ah 5V battery packs, one for drive and one for logic.
Here is the video of first rover movements:



Project homepage with all the parts and instructions:

https://www.wevolver.com/wevolver.staff/m.a.r.s./main/description/

MARS was developed in Eindhoven MADspace by:

  • Paul Wagener (lead software)
  • Tom Geelen (Embedded control and mathematics)
  • Serdar Yildirim (all round)
  • Guus van der Sluijs (Project leader and lead mechanical)

Orbital Composites Advanced Carbon Fiber 3D Printing

Orbital Composites is a company which developed advanced carbon fiber and wire 3d printing with applications in space additive manufacturing. It should enable future missions to 3d print satellites and objects in orbit or to 3d print drones with carbon fiber structures.

Here is the interview with Orbital Composites Founder and CEO Cole Nielsen and presentation of their tech:



Orbital Composites homepage:

http://www.orbitalcomposites.com/


Coaxial extruder nozzle developed by Orbital Composites. It should deliver 10x increase in print speed. 

Coaxial extruder that can extrude carbon fiber,  plastic wire, solder epoxies and other materials.

Taiwan Launches 3D Printed Rocket

Taiwanese university launched 3d printed APPL-9C rocket. It is made from modules with many 3d printed subsystems. It should be part of a larger multistage rocket in the future. Looks like many of the parts were done on FDM machines. I always claimed space will be colonized with 3d printers.

The first section of the rocket uses a sugar-based rocket fuel made from sorbitol + KNO3, and its second section features a hybrid rocket motor fueled by Hydroxyl Terminated Polybutadiene HTPB, with nitrous oxide as the oxidant. It accelerates at 15G.




From the source article:
A locally designed, developed and constructed rocket blasted off Jan. 31 in Hsinchu City, signaling Taiwan’s commitment to furthering its space technology capabilities.
Produced by Advanced Rocket Research Center based in National Chiao Tung University, the two-stage APPL-9C reached an altitude of 1 kilometer before deploying three chutes and splashing down in a Hsinchu wetland.
The rocket, made from environmentally friendly materials, measures 2.7 meters in length, 15 centimeters in diameter and weighs 27 kilograms when fully fueled.
Watch this baby fly:




Video in Chinese showing some 3d printed parts:



Local TV report also in Chinese:




Source:

http://taiwantoday.tw/ct.asp?xItem=241943&ctNode=2183 

More detailed article:

http://www.3ders.org/articles/20160202-watch-taiwan-researchers-successfully-launch-eco-friendly-3d-printed-appl-9c-rocket.html

3D printable Mars rover robot from Russia

Misha Larkin from Russia published his version of 3d printable Mars rover robot. It looks great. It was printed on XYZ daVinci.




All files and instructions can be found at:

https://www.thingiverse.com/thing:1318414

You can see a different version here:

http://diy3dprinting.blogspot.com/2015/03/3d-printed-rc-mars-rover-robot.html



Planetary Resources 3D prints with real asteroid sourced metal

Planetary Resources is one of the companies who want to mine asteroids for metals and work in the asteroid belt. They will need to work with materials they find there to produce machinery and structures in space.

To develop this technology they have partnered up with 3D Systems to produce a 3d printed metal part with materials for an actual asteroid that hit the Earth. The asteroid (or meteorite) used for the print materials was sourced from the Campo Del Cielo impact near Argentina, and is composed of iron, nickel and cobalt. The machine used to print it was the new 3d Systems ProX DMP 320.

As you can see the object has complex geometry and is simillar to support structures used in satellites.

























Here is a detailed video about manufacturing in space and asteroid mining technology:





You can watch an interview with Chris Lewicki, president and CEO of Planetary Resources here:

http://www.engadget.com/video/519396020/

... and more detailed Engadget post:

http://www.engadget.com/2016/01/07/planetary-resources-meteorite-print-3D-systems/


If you want to learn more about the company check out their cool mission video:





Company homepage on the project:

http://www.planetaryresources.com/2016/01/planetary-resources-and-3d-systems-reveal-first-ever-3d-printed-object-from-asteroid-metals/

How to 3d print on the Moon?

I'm a strong supporter for space colonization (even if it sounds ridiculous now). 3d printing will certainly be one of the key technologies that will enable us to go there.

Currently there is a small race by several private companies. from start-up to large corporations, to get a foothold in the space by developing tech solutions. Since the Moon is one of the main targets, 3d printing with lunar dust and regolith will be solutions for building Lunar bases or large surface antennae dishes. It will be done by using small robotic 3d printing rovers and some type of laser or microwave sintering of Moon surface material.

If you want to  learn much more, here is an excellent and very educational presentation by Karsten Becker from Part Time Scientists. They are a team that is in Goggle Lunar XPrize competition to enable affordable access to space.


Video of the presentation:





PTScientists have a partnership with Audi for their Moon rover technology.































Here is a video with more details of the rover and story behind it. They use a lot of 3d printing with aluminum and titanium to get the properties they need. Wheels are critical for the rover movement so the pattern is specially designed.




BTW: if you are interested in Moon colonization and SF you should read Luna: New Moon by Ian Mcdonald. It is a great space opera that has elements of Dune and Game of Thrones, but is set on the Moon.

3D Printable DIY Ion Thruster and EmDrive

Space will be colonized by human race, 3d printing will help but chemical rockets won't get us far. Here are two propulsion methods that you will be able to make and demonstrate here on Earth with some help of your 3d printer. Ideal for educational purposes.


3D Printable DIY Ion Thruster

Ion thrusters are proven space propulsion method and you can learn more about it on Wikipedia:

https://en.wikipedia.org/wiki/Ion_thruster

With some spare parts and 3d printed structure you can make a working model:




Learn more about the project and get more detailed construction instructions:

http://www.elab-hackerspace.org/2015/09/18/ion-thruster/

http://www.thingiverse.com/thing:1037204


3D Printable EM drive or RF resonant cavity thruster

EM-drive is much more exotic method of electromagnetic space travel which was considered a hoax when first presented but turned out to be potentially revolutionary since some tests show it works thus enabling future spacecrafts to fly without fuel mass.

Learn more here:

https://en.wikipedia.org/wiki/RF_resonant_cavity_thruster

Now you can also make a model and test it with few metal parts and a 3d printed support.







Project homepage:

https://hackaday.io/project/5596-em-drive





GrabCAD CubeSat Challenge

Here is a great contest for all you guys interested in 3d printed satellites and space. It has some great awards also.

One of the contest entries. 

The contest is organized by Stratasys, MakerBot and GrabCAD.

About This Challenge

The goal of this challenge is to design a small satellite frame optimized for additive manufacturing. By using the benefits of design for additive manufacturing (DFAM) principles:
  • Mass distributions and materials can be rethought to minimize weight 
  • Part count can be reduced to improve producibility 
and ultimately, cost can be reduced.

Awards for TOP 10 places:

1st Place

- $2,500 cash
- Your design printed by Stratasys Direct Manufacturing
- Makerbot® Replicator® and material pack.
- Featured story in Stratasys online communication and use of your design as an example part in Stratasys trade show and conference appearances.


2nd Place

- $1,000 cash
- Your design printed by Stratasys Direct Manufacturing
- Makerbot® Replicator® and material pack


3rd Place

- $500 cash
- Makerbot® Replicator® and material pack.


4th - 10th Place

- $100 cash
- Makerbot T-Shirt
- 3D Printed Sample Part


Challenge homepage:

https://grabcad.com/challenges/the-additive-cubesat-challenge

also don't forget about NASA 3d printed habitat contest:


Good luck people! 


NASA 3D Printed Habitat Competition

Here is a great competition with some big prizes. NASA wants you to help them explore and inhabit the space with help of 3d printing! I wish you the best of luck if you are going to compete!










Competition details from the NASA page:
NASA and the National Additive Manufacturing Innovation Institute, known as America Makes, are holding a new $2.25 million competition to design and build a 3-D printed habitat for deep space exploration, including the agency’s journey to Mars.

The multi-phase 3-D Printed Habitat Challenge, part of NASA's Centennial Challenges program, is designed to advance the additive construction technology needed to create sustainable housing solutions for Earth and beyond.

The first phase of the competition runs through Sept. 27. This phase, a design competition, calls on participants to develop state-of-the-art architectural concepts that take advantage of the unique capabilities 3-D printing offers. The top 30 submissions will be judged and a prize purse of $50,000 will be awarded at the 2015 World Maker Faire in New York.

The second phase of the competition is divided into two levels. The Structural Member Competition (Level 1) focuses on the fabrication technologies needed to manufacture structural components from a combination of indigenous materials and recyclables, or indigenous materials alone. The On-Site Habitat Competition (Level 2) challenges competitors to fabricate full-scale habitats using indigenous materials or indigenous materials combined with recyclables. Both levels open for registration Sept. 26, and each carries a $1.1 million prize.

For more information, rules and to register for the 3-D-Printed Habitat Challenge, please click here.
Source:

http://www.nasa.gov/directorates/spacetech/centennial_challenges/3DPHab/index.html

3D Printing for Mars Exploration and Colonization

Sure you can print a working version of Mars rover but will 3d printing ever be used on MArs? Sure it will!

Here is a talk by Aavron Estep at 2015 TEDxOStateU event, April 10, 2015, on the Oklahoma State University campus.





News article about the project:

https://news.okstate.edu/articles/osu-research-may-lead-3d-printed-mars-rovers

NASA is already using it to create its Desert RATS manned Space Exploration Vehicle rover prototype:




More info on:

http://www.stratasys.com/resources/case-studies/aerospace/nasa-mars-rover


Space Exploration Vehicle prototypes Source: Wikipedia



Space Race with 3D Printed Rocket Engines Continues

Race for space is getting more heated and 3d printed parts are becoming present in every major project from rocket engines to 3d printed satellites. Everyone is competing: big government agencies, private companies, student groups and private citizens. We have even seen 3d printed open source liquid fuel rocket engine.
3D printed rocket engines can be very fast in production and affordable even as low as 500 USD for the open source version printed by external service provider.

Here are some new developments:

Vulcan 1 rocket engine developed by SEDS team


SEDS (Students for the Exploration and Development of Space) is well known for their previous successful Tri-D 3d printed rocket motor developments. Now they are crowd-funding further development of bigger Vulcan 1 3d printed rocket engine and launch their Vulcan 1 rocket over 10000 feet.



Check out their KS campaign:

https://www.kickstarter.com/projects/1054991011/vulcan-i-rocket-powered-by-3d-printed-engine

NASA has developed a full size 3d printed copper engine


NASA successfully laser sintered full scale copper rocket engine.



They write:
“Building the first full-scale, copper rocket part with additive manufacturing is a milestone for aerospace 3-D printing,” said Steve Jurczyk, associate administrator for the Space Technology Mission Directorate at NASA Headquarters in Washington. “Additive manufacturing is one of many technologies we are embracing to help us continue our journey to Mars and even sustain explorers living on the Red Planet.”

Numerous complex parts made of many different materials are assembled to make engines that provide the thrust that powers rockets. Additive manufacturing has the potential to reduce the time and cost of making rocket parts like the copper liner found in rocket combustion chambers where super-cold propellants are mixed and heated to the extreme temperatures needed to send rockets to space.

A selective laser melting machine in Marshall’s Materials and Processing Laboratory fused 8,255 layers of copper powder to make the chamber in 10 days and 18 hours. Before making the liner, materials engineers built several other test parts, characterized the material and created a process for additive manufacturing with copper.
“On the inside of the paper-edge-thin copper liner wall, temperatures soar to over 5,000 degrees Fahrenheit, and we have to keep it from melting by recirculating gases cooled to less than 100 degrees above absolute zero on the other side of the wall,” said Chris Singer, director of the Engineering Directorate at NASA’s Marshall Space Flight Center in Huntsville, Alabama, where the copper rocket engine liner was manufactured. “To circulate the gas, the combustion chamber liner has more than 200 intricate channels built between the inner and outer liner wall. Making these tiny passages with complex internal geometries challenged our additive manufacturing team.”

“Copper is extremely good at conducting heat,” explained Zach Jones, the materials engineer who led the manufacturing at Marshall. “That’s why copper is an ideal material for lining an engine combustion chamber and for other parts as well, but this property makes the additive manufacturing of copper challenging because the laser has difficulty continuously melting the copper powder.”
Source and more information:
http://www.nasa.gov/marshall/news/nasa-3-D-prints-first-full-scale-copper-rocket-engine-part.html


Rocket Lab Electron Launch Vehicle


Rocket Lab is a private company that wants to provide cheap satellite rocket launch system for small satellites. Their Electron Launch Vehicle  rocket is made with carbon fiber and uses electrically powered 3d printed motor.




Rocket Lab uses Rutherford rocket engine that is almost entirely 3d printed:



Rocket Lab’s flagship engine, the 4,600lbf Rutherford, is a turbo-pumped LOX/RP-1 engine specifically designed for the Electron Launch Vehicle.
Rutherford adopts an entirely new electric propulsion cycle, using electric motors to drive its turbopumps, and is the first oxygen/hydrocarbon engine to use 3D printing for all primary components.

China has tested a 3d printed rocket engine part


China is making a progress forward, according to the report by 3ders.org:
Engineers from Institute 41 (part of the China Aerospace Science and industry Corporation) have already successfully tested an engine ignition device that has been created using 3D printing technology.

This is reportedly the first time Chinese engineers tested a 3D printed rocket component, but it seems to be very suitable for the job. Shell structures typically used for the ignition components in rocket engines are very difficult to design and produce, and are very costly and time-consuming to create. Engineers felt themselves bottlenecked, so a team from the ignition technology research laboratory of Institute 41 began incorporating 3D printing into their R&D process.
In collaboration with local manufacturers of 3D printing equipment, these engineers eventually and successfully 3D printed the first set of shells for ignition devices. To ensure these shells met all design requirements, researchers produced hundreds of 3D printed test samples, which were submitted to various extensive testing sequences.

We live in very interesting times... where will you boldly go?

3D printable open source liquid fuel rocket engine

Graham Sortino from New Jersey developed and tested 3d printed rocket liquid fuel engine. He went one step further and open sourced it! The engine is controlled by Arduino Uno! We live in amazing times!
The engine is made from three main modules: the igniter, injector, and the main engine body, all of which were SLS 3D printed by Shapeways and ExOne in bronze steel and machined afterwards to get the exact fit. Post-processing is a problem due to hardness of sintered metal so some tools break, the internal coolant lines are still not possible to 3d print due the geometry complexity and metal powder residues. 

The price is very low: 3d printed igniter costs some $60, the injector $80 and the rocket engine $260, for a total of just $400. Space exploration with extremely low budget!

The engine is still in development and not yet finished but it is a big step forward in open sourcing aerospace engineering! 

Engine specifications:
  • Fuel: GOX / Ethanol
  • Fuel Mass Flow: 0.0545 kg/sec
  • Oxidizer Mass Flow: 0.0545 kg/sec
  • Total Mass Flow: 0.1093 kg/sec
  • Design Mixture Ratio: 1:1
  • Design Force: 50 lbf
  • Design Chamber Pressure: 150 psia
  • Design Temp: 2572 Kelvin
  • Design Specific Impulse: 209 Isp 
Here are some photos of it:

Ignited engine. You can clearly see the mach diamonds.

3D printed engine and main lines / sensors

Here you can see a live test fire and mach diamonds:




Project homepage with files and instructions:

http://wiki.fubarlabs.org/FubarWiki/Small-Liquid-Fueled-Rocket-Engines.ashx

GitHub repository:

https://github.com/gNSortino/OSREngines/tree/master/Engines/2014-GOXEthanolRegenEngine

For previous 3d printed rocket engine named "Tri-D" look at:

http://diy3dprinting.blogspot.com/2013/10/students-developed-and-successfully.html

To boldly go where no one has gone before!


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