Undoubtedly the most exciting frontier for human exploration, outer space is a gateway to probing promising worlds, looking for biosignatures in the atmospheres of exoplanets, or pushing the boundaries of our scientific and engineering limits. Nonetheless, steering the course of human space exploration beyond the far side of the moon could take decades. It has been 49 years since the last Apollo 17 crewed mission landed in the lunar Taurus-Littrow highlands, and it could be at least five more years before we see humans navigating the moons lower-gravity atmosphere.
If our species will ever settle on the Red Planet or voyage into the distant regions of the outer cosmos, the space industry will need to thrive. For decades, a handful of space agencies laid the groundwork for the upcoming era of off-Earth commercialization. Still, it was not until the twenty-first century that companies began privately developing and operating launch vehicles and spacecraft. Once a fierce cold war duopoly, the space race is now dominated by private businesses.
Although the ultimate goal is to have sustained crewed expeditions to Mars in the 2030s and probes into deep space like the Voyager crafts or the Parker Solar Probe today, the most robust commercial space economies revolve around communications and satellites. The private sector is also accelerating the development of small spacecraft and launch vehicles that can travel to low-Earth orbit (LEO). Low-cost or not, access to space is turning into an up-and-coming sector.
Illustration of SpaceX Starship vehicles on the surface of Mars. Image courtesy of SpaceX.
At 3DPrint.com, we found 50 space companies using 3D printing to help create an off-Earth ecosystem, displayed in the infographic below and also included in our new Space Zone. Predictably, 62% of the companies develop spacecraft and technology to travel to LEO and some 220 miles above Earth to the International Space Station (ISS). Although 72% of these 50 businesses originated in the U.S., startups are cropping up everywhere, from Germany to India.
A powerful generation of entrepreneurial billionaires like Elon Musk and Jeff Bezos have veered their attention to space commercialization, paving the way for new space companies. As the exciting space industry ecosystem unravels, companies are turning to additive manufacturing (AM) technologies to lower the costs of access to space, a concept pioneered by Musks SpaceX. At just $2,720 per kilogram for a ride aboard its Falcon 9 two-stage rocket, the space titan managed to bring the cost down from the whopping $54,500 per kilogram it used to cost to launch a payload on the space shuttle.
Constructing a multi-dome Moon base. Image courtesy of ESA.
From manufacturing rocket engines to launch vehicle parts, 3D printing disrupts yet another industry by offering design freedom, reducing weight, and lowering costs. The journey into space commercialization has already begun, and AM is becoming a big part of it. Even the ISS has become a testbed for commercially designed 3D printing technologies.
Working towards faster lead times, companies like Made In Space, Aerojet Rocketdyne, and Blue Origin are partnering with traditional 3D printing manufacturers and service providers to expand their roster of printed parts. The technology gives engineers a powerful tool to improve rocket manufacturing that has otherwise remained unchanged. Innovative visionaries, like the founders of Relativity Space, have even gone as far as creating their own additive technologies to develop fully 3D printed rockets in record time.
Orbex has introduced what is said to be the worlds largest 3D printed rocket engine. Image courtesy of Orbex.
In the increasingly competitive space sub-sector of private rocket builders, startups like Skyroot Aerospace and Orbex are unveiling fully 3D-printed rocket engines. The global activity of the launch industry is in full force. Despite an unprecedented 2020, which forced businesses worldwide to halt operations due to the COVID-19 pandemic and limited flight capability everywhere, spaceports around the world continued operational. With 114 launches (among the highest number in the last 20 years), the critical space industries are crucial to ensure space exploration.
Following a tight timeline expected to deliver the first woman and next man to the moons surface in 2024 (now most likely delayed), space companies have been racing to participate in the backbone missions for space exploration, like Artemis. Expectations are high, especially when it comes to the realistic and harsh conditions humans will encounter on the moon and Mars, two sites that will require innovative 3D printing to survive.
EARTH
Rocket Labs Electron rocket launch rendering. Image courtesy of Rocket Lab.
ABL Space Systems
Determined to prove that reaching space can be simple, efficient, and routine, the Los Angeles-based rocket startup ABL Space Systems set out to design and manufacture its rocket engines in-house. ABL used AM techniques to create parts of the E2 engines that will power Stage 1 and 2 of its RS1 launch vehicle, including the thrust chamber. This targeted use of AM allowed the creation of complex internal fluid passageways to be incorporated into the engine.
AgniKul Cosmos
Spacetech startup AgniKul Cosmos builds made-in-India 3D printed rocket engines. Produced as a single component in one run, the higher stage semi-cryogenic liquid propulsion engine called Agnilet was constructed to support orbital-class launch vehicle Agnibaan, expected to carry micro- and nano-satellites to LEO on-demand in 2022. With 3D printing technology, AgniKul can make single-part engines in less than 72 hours, ready to be fitted in a space vehicle after standard post-processing.
Astra Space
Founded with a vision to make rocket launches to LEO frequent, routine and automated, Astra Space is building small rockets designed for mass production and reliable performance to meet the rising demand for small satellite launches. Even though Co-Founders Chris Kemp and Adam London suggest they dont rely on costly 3D printing or labor-intensive composites to make the rockets, for their Rocket 3.0, they used AM to complete the impellers for its pumps and rocket engine chambers.
Axiom Space
Axiom Space, the leading developer of the worlds first privately-owned commercial space station, plans to 3D print parts in orbit. Through a promising partnership with Made In Space, Axiom plans to incorporate its proven 3D printing capabilities on the ISS. The companies have been working out the logistical elements of in-space manufacturing, outfitting the in-space factory with equipment, utilities, power, and thermal management to answer customers growing demand.
Dawn Aerospace
Based in New Zealand and the Netherlands, Dawn Aerospace builds same-day reusable launch vehicles and non-toxic satellite propulsion systems for sustainable space transportation. As of 2020, the company has begun 3D printing combustion chambers for high-performance and high combustion pressure rocket engines destined to take its Mk-II Aurora sub-scale suborbital vehicle to space. Using composite materials for 3D printing the engines, they expect to provide the thermal conductivity needed to protect against space travel elements, which traditionally printed materials, such as titanium and stainless steel, lack.
Gilmour Space Technologies
Australias Gilmour Space Technologies will produce high-performance rocket and space components using AM. The startup received $3.7 million in investment funding in 2017 to develop its launch vehicles that use 3D printed rocket fuel. Focusing on the suborbital and LEO markets for satellite launches, Gilmour aims to provide an affordable launch service and improve accessibility to space. A pioneer in the Australian space industry, Gilmour will be using Titomic Kinetic Fusion (TKF) metal 3D printing to explore the production of rocket and space components.
KULR Technology Group
Leading developer of space-qualified electronics cooling systems and proven solutions for preventing dangerous battery fires and explosions, KULR develops unique 3D printed battery systems for space. The companys space-proven solutions for electronics and lithium-ion batteries had demonstrated their efficiency when NASA used them to transport and store batteries aboard the ISS in 2019 and as part of the Mars Rover that landed on Mars in February 2021.
Launcher Space
Brooklyn-based Launcher Space has been developing what it says is the worlds largest 3D printed liquid rocket engine combustion chamber in a single piece. The E-2 engine, made in Germany by AMCM using its specialized M4K printer, has been tested many times at Launchers test facility in New York. Focusing on the smaller private satellite launch market, Launchers small rockets will begin flight tests in 2023.
Orbex
Vertical launch vehicle Orbex Prime will use a large 3D printed rocket engine uniquely manufactured in a single piece without joints, seams, or welds. The complex part, developed by UK-based startup Orbex, is expected to withstand extreme temperature and pressure fluctuations while traveling to orbit. Conceived and developed as an environmentally sustainable launch system, Orbex Prime will use renewable biofuels to deliver an industry-leading ultra-low carbon dioxide footprint.
Parabilis Space Technologies
One of the first companies to complete the first round of hot-fire testing of a 3D printed Reaction Control System (RCS) thruster, Parabilis Space Technologies, uses advanced manufacturing for launch vehicles and spacecraft parts. This was a massive step toward demonstrating that a 3D printed Liquid Oxygen (LOX)-methane thruster can be used in space. When commercialized, it will dramatically change the relationship between cost and performance. Parabilis is also developing novel AM methods to enable the use of multiple dissimilar materials in 3D printed parts for space thrusters and spacecraft structures and more technologies toward lunar exploration spacecraft.
Relativity Space
Space manufacturer Relativity Space of Long Beach, California, is working on 3D printing an entire rocket. For the task, it has developed its own massive in-house 3D printer called Stargate, which utilizes 18-foot-tall robotic arms equipped with lasers that can melt the metal wire. Those robotic arms can stream about eight inches worth of metal onto a large turntable in just a few seconds. Directed by custom software, the robotic arms can produce the rockets entire body in one piece, and the printer allows Relativity to reduce the part count of a typical rocket from 100,000 to 1,000.
Rocket Crafters
As part of the incredibly diverse and thriving aerospace industry around Floridas Cape Canaveral Spaceport, Rocket Crafters focuses on producing rocket engines and pioneering its 3D printed rocket fuel. The startup is building and testing a large-scale hybrid rocket engine using Direct-Digital Advanced Rocket Technology (D-DART) and producing a unique fuel made primarily out of plastic. Using a patent-pending, horizontal 3D printing method that reduces production time for orbital-class fuel grains to a matter of hours in a single section, Rocket Crafters moves away from combustible and toxic propellants.
Rocket Lab
Like other space companies, aerospace manufacturer and small satellite launch service provider Rocket Lab is on a mission to remove the barriers to commercial space by providing frequent launch opportunities to LEO. The company has created the low-cost launch system Electron, whose Rutherford engine can be 3D printed in 24 hours. The engines main prop valves, injectors, pumps, and engine chambers are all created with electron beam melting.
Skyroot Aerospace
In 2020, Indian space tech startup Skyroot Aerospace unveiled its fully 3D printed cryogenic engine to fuel the upper stage of its Dhawan-1 rocket. The engine is considered Indias first privately developed indigenous fully cryogenic rocket engine that runs on propellants, like Liquid Natural gas (LNG) and LOX. Skyroot is one of Indias first private sector companies to participate in space activities with the governments authorization and supervision.
Skyrora
Founded in 2019 to accommodate the UKs renewed entry into the global space industry, Skyrora has created a 3D printed 30kN liquid bi-propellant engine for its full-size suborbital launch vehicle, the Skylark L. This ground-breaking engine technology was precision welded at Skyroras production facility in Scotland using powder bed fusion, allowing engineers to integrate the cooling channels into one printed chamber piece.
United Launch Alliance
Formed as a joint venture between Boeing and Lockheed Martin, United Launch Alliance (ULA) manufactures and operates several rocket vehicles capable of launching spacecraft into orbits around Earth and other bodies in the solar system. For its Atlas V rocket, ULA turned to Stratasys for serial production of 3D printed thermoplastic components. Using Stratasys Fortus 900mc Production 3D Printer, ULA created everything from tooling and support equipment to production parts.
Ursa Major Technologies
A Colorado company, Ursa Major Technologies, develops innovative propulsion solutions for the emerging micro- and nano-satellite launch market. To optimize the unique part creation of its engines for launch and hypersonic applications, Ursa Major leverages 3D printing techniques to modernize the development of staged combustion engines. The company successfully designed and built two liquid oxygen and kerosene combustion engine models and is currently working on a third one.
Virgin Orbit
Space travel and commercialization have been a lifelong dream for one of the worlds most recognizable entrepreneurs, Richard Branson. Enthralled with space ventures, Branson created Virgin Orbit, a spin-off out of his space tourism company Virgin Galactic. The company, which focuses on small satellite launch services, acquired one of the first hybrid additive-subtractive manufacturing machines globally through a partnership with DMG Mori and used it to 3D print rocket engine parts for space launch. The LASERTEC 4300 3D hybrid is turning out large parts in its Long Beach, California, facility, allowing new material combinations, like Copper and Inconel, and a vast working room for workpieces of up to 3,306 pounds.
LOW EARTH ORBIT (LEO)
Satellite technology for low Earth orbit (LEO). Image courtesy of Thales Alenia.
Airbus
Airbus has 3D printed a total of 500 radio frequency (RF) components, made of multi-waveguide blocks and switch assembly networks, for two Eurostar Neo spacecraft that will join the in-orbit fleet of Eutelsat, a primary provider of satellite communications services. RF components are at the heart of every telecommunications satellite, and now these parts are being produced by Airbus in large volumes.
Anywaves
A French Space Agency (CNES) spin-off, Anywaves develops miniature and high-performance antennas for the satellite constellations market. Applications such as telecommunications, navigation, Earth observation, atmospheric input, and many others require antennas for both receiving and sending signals. Anywaves novel 3D printed ceramic antennas have garnered many awards and will be ideal for the flourishing industry of nanosatellites. Soon the company will begin series production of the antenna via 3DCERAM.
Dhruva Space
Another of Indias first space startups, Dhruva Space, seeks to build low-cost satellites to collect real-time data. The company uses a lot of 3D printing, replacing space-grade components with commercial-grade components that cost one-tenth after extensive testing, and reusing and re-engineering parts wherever possible. Dhruva uses 3D printing technology, advanced CNC machines, and open-source architectures to integrate the satellites.
Mini-Cubes
Small space manufacturer Mini-Cubes is focusing on PocketQube Earth Observation satellites and using CRPs carbon-reinforced nylon laser sintering material to 3D print them. At one eighth the volume of a CubeSat, PocketQubes are miniaturized satellites for space research typically built with commercial off-the-shelf electronic components. Hoping that their innovative product helps anyone reach space today, Mini-Cubes turned to CRP to 3D print the entire satellite frame.
Optisys
Focused on providing 3D printed antenna products for high-performance space applications, Optisys believes metal 3D printing promises to reduce the size and weight of critical satellite components significantly. The company uses metal AM to create critical parts for satellites and expects to bring increased capabilities to the burgeoning satellite industry that are otherwise impossible with traditional fabrication methods.
Stratodyne
Newcomer Stratodyne wants to 3D print stratospheric satellites and CubeSats. Founded by a 21-year old college student, the startup is focused on applying advances in 3D printing technology to lower costs for space and high altitude research. Its 3D printed modular and remotely controlled airship could serve as a satellite, testbed, and even a launch platform for small rockets into space. Stratodyne plans to go commercial by mid-2021.
Swissto12
A spin-off of the Swiss Federal Institute of Technology in Lausanne, Switzerland, (EPFL), Swissto12 is heavily invested in leveraging 3D printing technology to deliver complex satellite parts. From 3D printed waveguide solutions for communication satellite payloads to 3D printed all-metal patch antennas for a fleet of satellites, Swissto12 is looking to push the boundaries of 3D printing technology for the satellite industry.
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Thales Alenia Space
Like many satellite manufacturers, Thales Alenia Space is installing more AM parts in satellites destined for low and medium Earth orbit. In 2017, 45 communications satellites built by the French-Italian space manufacturer were successfully orbited, all of them fitted with 3D printed parts. Now, Thales Alenia Space is taking 3D printing into series production to make components for telecom satellites built on the companys new all-electric Spacebus Neo platform, a metal powder-bed fusion technique.
INTERNATIONAL SPACE STATION
The International Space Station. Image courtesy of NASA.
3D Bioprinting Solutions
Moscow-based bioprinting company 3D Bioprinting Solutions has engaged in a series of unique experiments in orbit thanks to a space bioprinter. Organ.Aut, the worlds first space bioprinter, was launched to the ISS in 2018. Since then, the device has been used to bioprint several tissues, including 3D bioprinting bone tissue in space for the first time using growing fragments of bone structures and carrying out a high molecular weight protein crystallization experiment in zero gravity.
Boeing
The U.S. aerospace giant is working on the CST-100 Starliner space crew capsules. These passenger taxis will initially take NASA astronauts to and from the ISS and are expected to take civilians later on. To supply over 600 3D printed components for the three Starliner capsules, Boeing turned to Oxford Performance Materials (OPM), saving close to 60% compared with traditional manufacturing.
Intuitive Machines
With a vision to enable sustained robotic and human exploration to the Moon, Mars, and beyond, Intuitive Machines provides innovative solutions for the commercial space ecosystem. The company relies on AM for many of its space parts, which go to different space projects, including constructing the first commercial space station on the ISS and the Nova-C Lunar Lander.
OHB Systems
German space and technology group OHB will develop a 3D printer prototype for the ISS for large part production using high-strength and functional thermoplastics. The undertaking is part of the IMPERIAL project, aiming to design, develop, and test a 3D printer model that alleviates build volume constraints while meeting the ISS fabrication requirements. The 3D printed parts produced using this system will demonstrate extraterrestrial manufacturing potential, enabling new maintenance and life support strategies for human space flight.
Made In Space
One of the most prominent players in the space ecosystem, Made In Space, has been experimenting with AM in microgravity since the early 2010s. The startup created the first Zero-G 3D printer that left for the ISS in the fall of 2014, followed by an updated version, the Additive Manufacturing Facility (AMF), in 2016. But the list doesnt end there; the company has even manufactured the Plastic Recycler, capable of processing waste plastic into feedstock to use in the AMF.
nScrypt and Techshot
nScrypt and Techshot have created the innovative BioFabrication Facility (BFF), designed to print organ-like tissues in microgravity aboard the ISS. Launched in July 2019, the BFF has already successfully printed tissue-like constructs with a large volume of human heart cells aboard the ISS Lab as well as human menisci. One of the keys to 3D bioprinting in microgravity is that the bioink only contains cells but no scaffolding materials or thickening agents typically required when bioprinting on Earth to resist the destructive pull of gravity.
SpaceX
With 3D printing, SpaceX can create its incredibly powerful SuperDraco thrusters, a critical component of the Crew Dragons launch abort system (LAS). The SuperDraco is an advanced version of the Draco engines used by SpaceXs Cargo Dragon spacecraft to maneuver in orbit and during re-entry. The first demo mission of the Crew Dragon spacecraft with 3D printed SuperDraco engines took off in March 2019. The Crew Dragons highly anticipated final test mission was successfully launched and returned in the summer of 2020 with two astronauts on board.
Tethers Unlimited
Pioneering space company Tethers Unlimited focused on reprocessing space trash or debris to make resources and feedstock for in-space manufacturing. Its unlimited recycler and 3D printer onboard the ISS, the Refabricator, has demonstrated a unique process for repeatable, closed-loop recycling plastic materials for AM in the ISS microgravity environment a minimum of seven times. The integrated recycling/3D printing capability provides significant cost savings by reducing the launch mass and volume required for printer feedstock while decreasing Earth reliance.
ARCHINAUT
Rendering of Archinaut. Image courtesy of Made In Space.
Made In Space
To further self-sustainability in space through the construction of satellites and even entire spacecraft, Made in Space is developing Archinaut, a 3D printer capable of working in the vacuum of space. Equipped with a robotic arm, Archinaut is scheduled to be installed on an external space station pod and capable of in-orbit AM, the fabrication, assembly of communications satellite reflectors, or the repair of in-orbit structures and machinery. The robotic manufacturing and assembly platform will orbit LEO to provide the most innovative means to date of large-scale manufacturing in space.
Northrop Grumman
To build Archinaut, Made In Space (now part of Redwire) has asked Northrop Grumman to provide software, systems engineering, control electronics, and space station interface support for the Archinaut project. As well as demonstrate Archinauts capabilities on a flight mission. The objective of Archinauts flight demonstration mission is to construct two 10 meter solar arrays, in orbit, to power a small satellite. The Archinaut system will be integrated into an ESPA class satellite bus (an adapter for launching secondary payloads on orbital launch vehicles) and launched into space. Once in orbit, Archinaut will employ its extended structure AM capabilities and advanced robotics to manufacture and assemble the satellites power generation system.
Oceaneering Space Systems
Strategically located near Johnson Space Center in Houston, Texas, Oceaneering Space Systems (OSS) has provided NASA with space flight hardware systems and equipment for more than 35 years. For Archinaut, OSS will focus on creating the robotic arm to be integrated with Made In Spaces novel 3D printing system.
Redwire
Formed in June 2020, new space venture Redwire has already incorporated several space companies into its acquisitions list. Self-defined as a new leader in mission-critical space solutions and high-reliability components for next-generation space systems and infrastructure, Redwire is now uniquely positioned to deliver end-to-end solutions to meet the needs of customers and advance the future of space exploration. Currently leading the work behind Archinaut, Redwire could become a household name as the space commercialization era proliferates.
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