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Relativity space 3d printed rocket


Relativity Space

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FACTORY OF
THE FUTURE

ROCKETS BUILT AND FLOWN IN DAYS

Relativity's proprietary Factory of the Future centers on Stargate, the world’s largest metal 3D printers, that create Terran 1, the world’s first 3D printed rocket, and the first fully reusable, entirely 3D printed rocket, Terran R, from raw material to flight in 60 days. Relativity’s Stargate printers’ patented technology enables an entirely new value chain and innovative structural designs that make Terran 1 and Terran R possible. By developing its Factory of the Future and rockets together, Relativity accelerates its ability to improve design, production, quality, and speed.

Zero fixed tooling and radical part count reduction

LEARN ABOUT TERRAN

POWERING THE STARGATE PRINTER

METALLURGY

Relativity developed multiple proprietary alloys custom designed for 3D printing to meet mission-critical performance.

UNIFORMITY

Parts are inspected during and after printing to ensure they meet the highest standards of uniformity and quality.

THE FUTURE IS 3D PRINTED

For 60 years, aerospace manufacturing has relied on large factories, fixed tooling, complex supply chains, and extensive manual labor to build costly rockets comprised of 100,000+ parts in 2 years or longer. 

To accelerate innovation in the industry, Relativity built its Factory of the Future, the first aerospace platform to automate rocket manufacturing, vertically integrating intelligent robotics, software, and data-driven 3D printing technology. Incorporating Stargate, the world’s largest metal 3D printer with AI-driven controls, our Factory of the Future continuously optimizes production, resulting in greatly compounded quality and time improvements, lower costs, and product designs previously not possible.  

Relativity is an application-layer 3D printing company that is starting with rockets, and will extend its Factory of the Future to all of aerospace. 

Rigid Factories, Fixed


tooling & HIGH Labor Costs

100,000+ Part Count

24 Month Build Time

48 Month Iteration Time

Complex Supply Chain

High Physical Complexity

ADAPTABLE, SCALABLE


AUTONOMOUS ROBOTICS

<1,000 Part Count

2 Month Build Time

6 Month Iteration Time

Simple Supply Chain

Software Defined Factory

CHANGING THE WAY ROCKETS ARE BUILT AND FLOWN

Custom designed


for printing

  • High strength alloys specially designed for Stargate printers
  • Physical properties designed to meet mission-critical structural requirements
  • In-house material characterization lab for quickly iterating on new alloy development
  • Relativity developed multiple proprietary alloys custom designed for 3D printing to meet mission-critical performance

    • UNIFORMITY
  • Parts are inspected during and after printing to ensure they meet the highest standards of uniformity and quality.

REAL-TIME QUALITY CONTROL


AND PART INSPECTION

  • Intelligent data-driven manufacturing
  • Machine learning control algorithms
  • Collaborative additive and subtractive process enables complex geometry

Collaborative robotics


and path planning

  • Verification and validation data captured during manufacturing
  • Flexible and highly scalable system architecture
  • Cloud-based manufacturing simulation and training

Careers

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CAREERS

CAREERS

View Open Positions

Relativity team members at our hanger at Launch Complex 16 in Cape Canaveral, FL

Celebrating World Creativity and Innovation Day 2022, Long Beach, CA Headquarters

Propulsion Test Technician working on our engine at our test facility in Stennis, MS

GO/NOGO polling from the control room at Cape Canaveral, FL

2022 Aerospace Games in Long Beach, CA

You're a multihyphenate human who thrives where engineering meets creativity. And we at Relativity defy labels, exceed expectations, and push through boundaries. From day one, you'll get to work on cutting-edge technology and solve complex problems in creative ways that haven't been done before. By creating the world's largest metal 3D printers, Relativity is taking 3D printing to new heights, starting first by creating orbital rockets, Terran 1, the world's first 3D printed rocket and Terran R, the first fully reusable, 3D printed rocket. With the ultimate goal of building humanity's multiplanetary future, Relativity is expanding the possibilities of the human experience by upgrading humanity's industrial base on both Earth and Mars. Want to create new worlds while protecting our own? Join our team and help create the future of manufacturing.

As a partner of NASA’s Stennis Space Center and the U. S. Air Force, Relativity operates multiple production, test, and launch sites across the country. Whether you want to work at our headquarters in California, our testing facilities in Mississippi, or our launch complex in Florida, Relativity has a spot for you.

View All Locations

AUDACITY

Challenge convention in pursuit of an expansive future.

RELENTLESSNESS

Focus on achieving intentionally meaningful results.

WONDER

Approach the world with awe and a deep desire to create.

Humanity

Expand possibilities for the human experience in this world – and beyond.

We are committed to our team member’s health, well-being, and growth.

COMPREHENSIVE BENEFIT PACKAGE

We offer high-quality care plans for health, dental, and vision, and provide an additional stipend for employee wellness.

COMPETITIVE COMPENSATION

In addition to receiving a competitive salary and 401(k), team members are eligible to receive equity.

WORK / LIFE INTEGRATION

We observe 11 company holidays and have a generous PTO policy.

TEAM CAMARADERIE

Our team connects and recharges with monthly lunches, game nights, holiday celebrations, and offsite events.

Parental Leave and Family Building

We offer generous parental leave and provide a $10,000 stipend for fertility, adoption, and other family-building benefits.

LEARNING AND DEVELOPMENT

Our $2,000 annual learning stipend allows you to develop your professional skills and accelerate your career. We also have constant training opportunities, company Lunch and Learns, and access to industry conferences.

We look forward to welcoming you and building a multi-planetary future – for everyone!

We believe empowering people from different backgrounds, identities, and perspectives will advance our mission and enable us to build the highest-performing team possible. Diversity, equity, and inclusion are integrated into Relativity’s DNA, and we continuously take steps to advance our culture of belonging internally and externally. 

Through our Inclusion Champion Program and Inclusion 30 Conversations, our team members advocate for DEI and consistently drive our mission forward. By partnering with organizations like the Los Angeles’ Racial Equity & Newly Empowered Workplaces (RENEW) Task Force, Aerospace 2030, and the City of Long Beach’s Space Beach Mentorship Program, we seek to inspire and build a more inclusive future for aerospace.

 

Relativity team. Pride celebration at Long Beach, CA Headquarters

Full-time positions are listed below.  Students can view the list of internships here.

How Relativity Space prints rockets on a 3D printer

Relativity Space co-founder, CEO Tim Ellis / Relativity Space / AFP

Relativity Space is printing a metal space rocket on a 3D printer that it invented specifically for this purpose. Almost all: 95% is printed, and the remaining 5% falls on electronics, seals and some other elements. 3D printing has many advantages. She's cheaper. She's faster. It is made on the spot, no need to wait until the parts are brought from another factory. It is stronger: fewer places for fastening parts. “The Shuttle had 2.5 million parts,” says Relativity Space co-founder Tim Ellis. “According to our estimates, SpaceX and Blue Origin have reduced this number to 100,000 per rocket. We have a thousand - less than in your car. nine0003

Many space companies use 3D printing, but only for individual components. Skeptics insist that no one knows how the printed rocket will behave during takeoff and in space. So far, the startup's first rocket, Terran 1, has successfully passed all ground tests. The first copy for a real flight is collected slowly and carefully checked. Now it is ready for 85%. A test flight is scheduled for the end of this year. But investors believe in the idea. Last November, Relativity Space completed a series funding round and raised $500 million. After that, according to research company Pitchbook, with a business valuation of $2.3 billion, Relativity Space became the second most valuable venture capital-funded space company in the world. In 1st place, of course, SpaceX (however, Pitchbook does not include Blue Origin in the rating, which is fully funded by Jeff Bezos). nine0003

Relativity Space has since raised another round, raising $650 million, based on a company-wide valuation of $4.2 billion. reusable. After all, competitors do not sleep. Relativity Space is just one of more than a dozen rocket companies created in the last 10 years.

Launch from Mojave

Ellis was born in 1990 in Texas. He is the eldest of three children of an architect father and a dentist mother. As a child, Ellis was fond of Lego and persuaded his parents to buy about 200 sets. He immediately threw away the instructions from them and collected the spaceships he invented himself. Until now, the thumb of his right hand, when at rest, arched back more than his left - Ellis assured the Los Angeles Times that this was the result of long hours when he assembled and disassembled the parts of the designer. nine0003

As Ellis got older, he began making amateur films with his friends, mostly action movies, where the characters were often confronted by zombies. He entered the University of Southern California to become a screenwriter. But already in his first year, he became interested in the profession of an aerospace engineer and joined the Rocket Propulsion Lab at the university, which was engaged in the development of rockets.

The University of Southern California is known for its space program. Its alumni include Apollo 11 commander Neil Armstrong, astronaut and former head of NASA Charles Bolden, and Dana Rohrabaker, chairman of the House Space and Aeronautics Subcommittee. There are several laboratories where students create real rockets and satellites. “I was amazed,” Ellis recalled in an interview with the university website about the first time he went to test the rocket engine he designed and built with his comrades in the Mojave Desert. – I always advise students: take part in practical classes. So you will understand why you need to study this or that differential equation, scheme or line of code. nine0003

They wanted to be the first student group to launch a rocket into space. But, having carried out dozens of successful launches, they did not even achieve a suborbital flight - this was done by their successors in 2019, having developed more powerful engines.

Why leave Bezos and Musk

At Rocket Propulsion Lab, Ellis met and became friends with classmate Jordan Noone. Then their paths diverged for a while. Noon went to SpaceX, where he worked, among other things, on the Dragon 2 spacecraft. His emergency rescue system uses a 3D printed SuperDraco engine. nine0003

Ellis interned for three summers at Bezos' Blue Origin, and after graduation he was accepted full-time. He convinced Bezos to create a metal 3D printing division (by then many competitors, including Boeing, were doing it). He also created it from scratch. The traditional way of producing parts is turning on a lathe, stamping or casting with a mold. In 3D printing, robotic arms deposit layer upon layer of molten metal. A printed rocket has fewer parts, and therefore, places to connect them using welding, rivets, etc. , and therefore fewer vulnerabilities. Skeptics object that if defects are found, the entire part has to be discarded and its manufacture must be started anew. But Ellis says that Relativity Space has developed a way to restart the printing process from the right place. “3D printed rockets are the future of rocketry and space exploration,” he told Inc. magazine. nine0003

Ellis and Noon often called each other and talked about rockets, although they worked for different space companies. They put together a rough cost structure to understand why rockets are so expensive. “80 to 90% goes to wages,” Noon told Bloomberg. 3D printing can dramatically reduce these costs.

Ellis once mentioned that he was going to start a startup to 3D print entire rockets. He later admitted to Inc. that he tried to get Bezos to print more parts for the rocket, but his suggestions were never fully implemented. Then he decided to take up rocket science himself. Noon liked the idea. Both left in December 2015 to create startup Relativity Space. nine0003

“I never saw him give up, give up, or fail to solve a problem, even a really difficult one,” Ellis told the Los Angeles Times of Noon. “I knew our startup was going to have a lot of problems, and he was the right person to make it all work.” And Noon noted: “I am strong in technical and practical aspects, and Ellis is strong in creative thinking and non-standard solutions.”

For 1 kg of satellite

Relativity Space received its first money from venture investor Mark Cuban. Ellis and Noon made about 20 attempts to guess Cuban's email address, as Cuban preferred texting to other forms of communication. Some of the letters were returned with a note that such an address does not exist, some got to other people. But one of the addresses turned out to be correct, and Cuban read the letter with the headline "Space Is Sexy: 3D Printing of an Entire Rocket." Ellis and Noon asked for $100,000. Cuban, after five minutes of texting them, agreed to invest $500,000 (although they had to wait two months to check if they were fraudsters). “They are smart, resourceful, driven and always learning,” Cuban wrote in an email to The Times. “These are exactly the traits I look for in innovators.” nine0003

First, the startup needed to create a huge 3D printer - there were no models on the market suitable for their purposes. A lot of effort was put into this. But now the latest generation printer is able to print a part up to 32 feet (almost 10 m) high, while the height of the Terran 1 rocket is 115 feet (35 m). Ellis and Noon say that even if the rocket venture fails, they can always cash in on the sale of industrial 3D printers.

Terran 1 /Relativity Space

Created with Cuban's money, the first printer could print parts half the size of the last generation. But the working rocket engine printed on it made an impression on investors. First, they invested almost $10 million in the startup, then another $35 million, and in October 2019d. - another $ 140 million. Ellis and Noon planned to stop there. They did not want to dilute their share, and the funds raised should have been enough for the time before the first commercial launch, if they worked without haste. But in November 2020, another $500 million round of funding was raised. As Ellis explained to CNBC, “the development and scaling of the project needs to be accelerated.” That summer, the startup moved to a new 11,000-square-meter headquarters in Long Beach, California. m, where there will be a site for the production of rockets (the most important thing is that their new printer climbed there in height). Over the past year and a half, the company has more than doubled the number of employees. She now has 400+ people and plans to hire 200 more this year.

Ellis told Inc. that they already have $1 billion in launch contracts from government and commercial entities. Terran 1 can carry up to 1250 kg of payload. This is smaller than SpaceX's Falcon 9, but larger than Rocket Lab's Electron. Relativity Space is targeting a mid-sized satellite niche, much like a car, Ellis said. Its competitors are the Russian Soyuz-2-1V and the European Vega. Or the same Electron, if Terran 1 displays several small satellites at once. nine0003

The launch cost of Terran 1 is $12 million, i.e. slightly less than $10,000 per 1 kg. Last year, Roscosmos CEO Dmitry Rogozin announced a more than 30% reduction in the price of launch services for a number of satellites to the level of SpaceX: to $15,000–17,000 per 1 kg instead of $20,000–30,000.

Target Mars

The competitive advantage of Relativity Space is not only in cost, but also in the fact that it can print a rocket to customer requirements, changing both the diameter of the rocket and the shape of the fairing for the satellite - of course, within the limits allowed by aerodynamics, Forbes explained. And she can do it quickly. Once the technology has been proven in practice, Relativity Space is going to print the rocket in 30 days and take another 30 days for pre-launch tests, Ellis told Scientific American. According to him, even SpaceX takes 12 to 18 months to build a conventional rocket. But Musk claims that his reusable rocket is ready for a new flight 51 days after the previous launch. nine0003

So in June, Relativity Space raised another $650 million from investors to accelerate the development of its own reusable Terran R rocket (of course, also almost completely printed on a printer). Its first launch is scheduled for 2024. It will be larger than the first one - 216 feet (66 m) high and designed for 20 tons of payload.

For Ellis and Noon, the main thing is that this project is another step towards interplanetary flights. Musk is looking for a way to get colonists to Mars, and Ellis and Noon are hoping to help them settle on the Red Planet. "If you believe - and I believe - that Elon [Musk] and NASA will send people to Mars, then <...> they will need a whole bunch of things," Ellis told CNBC. “Our printers are reducing the amount of infrastructure that would need to be transported from Earth to Mars in order to establish a colony there,” explained Noon Inc. – Traditionally, you need to send tons of equipment for a factory that will be able to produce factories that, in turn, will produce cars, houses, warehouses . .. In our vision of the future, you simply send a 3D printer to Mars that prints everything using Martian raw materials this is". In a speech to the students of his alma mater, Ellis added: “We are going to 3D print the first rocket made in Mars <...> I don’t see a future in 50 years in which rockets will not be 3D printed. It just doesn't make sense otherwise, because printing is much easier and cheaper." nine0003

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Relativity Space aerospace engineers, former employees of Blue Origin and SpaceX. Their plans are to change the traditional way of building rockets and build a 3D printing factory on Mars, for which they have already raised more than $1. 3 billion in investments. Relativity Space plans to launch its first rocket on October 31, 2022. nine0003

Simplified rocket science

Traditionally, rockets are built from separate components - a space agency or a private company orders parts of a future spacecraft from different factories. This method has a major drawback: the industry depends on many third-party factories and their machines. This slows down the process.

Relativity Space can create its own rockets by simply programming a 3D printer. For production, only raw materials are needed, for example, steel and titanium. Relativity Space does not use manual labor and does not need a complex supply chain. In this way, 3D printing radically automates and simplifies production. Founder Tim Ellis notes: “Our goal is to reduce the number of parts for rockets by 100 times.” nine0003

Relativity Space hopes that with fewer parts, the number of production steps will be reduced. Josh Brost, vice president of the company, notes: “It takes about two years to build a conventional rocket, and then you need to purchase equipment. We are working to ensure that only 60 days pass from the receipt of raw materials to the launch of the launch vehicle on the market.”

How rockets are made with a printer

Relativity Space uses two industrial 3D printers for rocket science. The first uses a process called direct metal laser sintering. The necessary parts are created from metal powder, up to engines. The second 3D printer consists of three robotic arms that assemble parts by stacking layers of metal on top of each other. They can be quickly reconfigured to create other parts of the rocket. nine0003

After the launch of Terran 1 and Terran 2, Relativity Space plans to construct a full-fledged factory for 3D printing rockets to Mars.

Mars Plans

Tim Ellis emphasizes that sending humans to Mars requires detailed planning for everything from the actual launch from Earth to generating electricity, building new infrastructure and growing food. He is sure that the achievements of Relativity Space can also be useful on Mars - with the help of 3D printing, it will be possible to create the infrastructure necessary for astronauts on the planet.

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