SpaceChain announced it has successfully launched its second Ethereum Virtual Machine (EVM) payload into space aboard a SpaceX Falcon 9 rocket, which is on its way to the International Space Station (ISS) for installation via the SpaceX Dragon 2 spacecraft. The mission marks SpaceChain’s seventh successful blockchain payload launch into space, and the second integration of its payload with Velas, the world’s fastest EVM blockchain and open-source platform for decentralized applications.

Once installed and tested on the ISS via Nanoracks, the space node will be capable of processing Velas blockchain on the ISS and sending Velas digital assets from space, such as VLX, tokens and NFTs, in addition to performing complete high-speed transaction services across the Velas platform, including smart contract deployment and coin minting.

Today’s mission not only reaffirms SpaceChain’s commitment in empowering blockchain companies to harness space as a platform for business innovation, and the high customizability of blockchain-enabled space nodes in meeting diverse industry needs, it also validates the possibility and feasibility of performing high-speed blockchain processing in space, and serves as a successful scientific demonstration of SpaceChain’s highly integrative space-as-a-service solutions with EVM compatible blockchain technology.

Figure 1: Turbomachinery components like those shown here are typically produced using laser metal fusion.

By Eliana Fu

The next frontier includes 3D-printed materials and antennas.

What do I think about space exploration? If you ask me that question and get me started on that topic, I probably won’t be able to stop. Since the new space race has begun, we are starting to see “new space” companies pop up that are basically tech startups: highly motivated, enthusiastic, driven individuals who are committed to their mission and will do “what’s right” to achieve their goals. Additive manufacturing (AM), or 3D printing, is a tool they can use to help achieve their goals. For metallic components on spacecraft or even on the launch pad, AM is, simply put, propelling the next generation of space exploration.

In the last few years, we have seen tremendous success in the public and private space exploration industry. The legendary William Shatner (Captain Kirk of “Star Trek” fame) took a ride on Blue Origin’s New Shepard vehicle when he was 90, becoming the oldest person to go to space. SpaceX’s Starship has a new tentative launch date for late 2022. Virgin Orbit launched satellites from the Mohave Air and Space Port, and they are on target to launch from the U.K. in coming months. Firefly had its first successful flight, and Astra also returned to launching from its Alaska facility. NASA’s Artemis mission got underway and, though pushed back, will resume when it is safe to do so. Many others continued making progress, including Rocketlab, ABL Space, Stoke Space, Venus Aerospace, and Firehawk.

The conversation of using AM for space exploration has continued unabated. For example, Relativity Space announced its intention to launch in late October 2022. This is significant, given that a large proportion of its vehicle is produced using AM processes, such as wire-arc additive manufacturing (WAAM) and laser-powder-bed fusion—also called laser metal fusion (LMF).

Many other space flight companies—old and new—are using AM processes for structural components, fuel tanks, barrels, and propulsion devices. The classic rocket engine lends itself well to 3D printing, and laser metal fusion is appropriate to produce turbo machinery, injectors, combustion chambers, and nozzles.

China Space Program Plans to Build a Nuclear-powered Moon Base by 2028

John Lopez

China is looking to establish its first base on the lunar surface by 2028. This is part of the country’s plans to send its astronauts to the moon in subsequent years, a challenge to NASA’s revived space supremacy.

Local news outlets report that China’s planned moon station will be built on the moon’s south pole, and it will be completely nuclear-powered.