Launcher
Hawthorne, CA
https://www.launcherspace.com/
Velo3D
Campbell, CA
www.velo3d.com
Humankind launched the first orbital satellite in October 1957. Sixty-five years later, more than 5,000 satellites are in service, with roughly half of them placed into low-Earth orbit (LEO) over the past two years. Much but not all of this activity comes courtesy of entrepreneur Elon Musk, whose SpaceX-launched satellite internet constellation Starlink will soon account for at least half of the objects circling our planet.
“We don’t think this rapid growth is an anomaly,” said Max Haot, founder and CEO of Launcher Inc., an aerospace startup in Hawthorne, CA. “We think it’s the beginning of what’s to come. In fact, we believe there will be hundreds of thousands of small satellites in orbit within the next decade.”
Catching a Ride
Haot plans to be a big part of what he refers to as a small satellite revolution. Later this year, Launcher will leverage the SpaceX SmallSat Rideshare Program to carry its Orbiter satellite transfer vehicle and platform into space, where it will deploy up to 400 kg worth of CubeSats and small satellites per mission and precisely place them into whatever orbit their owners desire. And beginning in 2024, the company will start offering its own launch service — Launcher Light — a liquid-fueled rocket measuring 15.2 meters long and 1.1 in diameter that will carry 150 kg and 105 kg payloads into LEO and SSO (sun-synchronous orbit) respectively.
Orbiter is the top end of the rocket’s three-stage design, Haot explained, and somewhat ironically, was supposed to be the last part of the vehicle to be developed. But when SpaceX announced in early 2020 that it would begin selling payload space on its Falcon 9 rocket, Haot and the Launcher team realized they could make their satellite deployment system compatible with it and other launch platforms and decided to fast track that part of the project.
“Seeing an opportunity to give our customers the best of both worlds, we brought Orbiter to the head of the line,” he said. “At the same time, we continue our work on the Launcher Light’s mechanical structures, the fairing, and, perhaps most importantly, the engine, all in preparation for its first commercial flight in 2024. So, it’s been a very exciting year, with 80 percent of the organization’s manufacturing capability focused on building our first Orbiter, which is flying in October of this year.”
Less Costly Launches
The goal of all this, of course, is to make satellite deployment both easier and more affordable. Between the SpaceX RideShare program and Launcher’s Orbiter transfer vehicle, the aerospace startup will soon be able to place payloads into customized orbits for a little more than $8,000 per kilogram.
Haot and Launcher’s Head of Manufacturing, Tim Berry, are quick to point out that none of this would have been possible without additively manufactured metal components, the most challenging of which were produced on a Sapphire 3D printing system from Velo3D.
“The Velo Sapphire with its ability to reliably print complex geometry made it very easy for us to pivot in the face of shifting priorities,” said Berry. “That’s a benefit of additive technology in general, but especially when you’re using a highly-capable print platform.”
Meeting the Challenge
As noted earlier, Launcher began its most recent development efforts with the Orbiter rather than the rocket’s main stage that would carry it into space. And since no rocket flies without a rocket engine, Launcher licensed the drawing for a space-proven turbopump, then set about improving its design using additive manufacturing (AM) technology.
Unfortunately, no metal AM equipment provider could produce many of the necessary components. One notable example is the engine’s shrouded impeller, an extremely critical and complex Inconel part that spins at 30,000 rpm, must withstand more than 300 bar of outlet pressure, and is filled with notoriously hard-to-print zero-degree angle surfaces. According to Berry, “The team at Velo3D took the challenge and we ended up with a finished part that exceeded all of our performance objectives. That was the beginning of our relationship.”
That relationship continues to this day. Before investing in their own AM equipment and other metalworking machinery, Launcher subcontracted most of its parts to Velo3D’s network of contract manufacturers. And while those companies did a good job, Haot knew that he would never reach his goal of fast, flexible, and above all, cost-competitive manufacturing unless Launcher became as vertically integrated as possible.
“As a modern space and rocket company, we have several important goals,” he said. “The first and most obvious one is for Orbiter to deliver the lowest cost in the industry for the highest propulsive capability. But to achieve that, it’s critical to have in-house design and manufacturing capabilities. Every time you buy a separation ring, propulsion system, or support structure from a third party, your costs and lead time easily rise by a factor of ten. So instead of the week or so it takes us to design an engine, print, and test it, we would spend maybe two or three months with an outside provider. It’s prohibitive.”
Fueling Up
Berry pointed to the fuel tanks as one typical example. “Shop around for a space-graded tank able to withstand 3,000 psi of pressure and you’ll probably hear lead times of eight months to two years, especially if they’re custom,” he said. “That’s not an option in our environment, so as with many of our components, we took the approach of designing based on our available tools.”
As it so happens, the Orbiter’s 22-liter tanks exactly match the Sapphire’s build volume. Launcher began by printing the parts out of Inconel, and although they performed quite well, Berry and the team started looking for ways to optimize the design. Moving to lighter-weight titanium was the obvious choice.
“That’s what brought us to our second machine from Velo3D,” he explained. “It can print the exact same tank but with less weight and higher pressure capabilities. We already thinned the walls a bit compared to the original design, but once we have the first few launches under our belt, we’ll probably reduce them even further as we continue to push the envelope.”
That’s one of the biggest advantages of having in-house printing capabilities, he added, as Launcher can continually push for more aggressive designs and higher performance without losing a lot of time or spending a lot of money.
This article was contributed by Launcher. For more information, visit www.launcherspace.com .