In-space manufacturing company Made In Space is pushing the envelope on what can, well, be made in space with its next mission – which is set to launch aboard a Northrop Grumman International Space Station (ISS) resupply mission set for next Tuesday. Aboard that launch will be Made In Space’s Turbine Ceramic Manufacturing Module (aka CMM), a commercial ceramic turbine blisk manufacturing device that uses 3D-printing technology to produce detailed parts the require a high degree of production accuracy.
A turbine blisk is a combo rotor disk/blade array that is used primarily in engines used in the aerospace industry. Making them involves using additive manufacturing to craft them as a single component, and the purpose of this mission is to provide a proof-of-concept about the viability of doing that in a microgravity environment. Gravity can actually introduce defects into ceramic blisks manufactured on Earth, because of the way that material can settle, leading to sedimentation, for instance. Producing them in microgravity could mean lower error rates overall, and a higher possible degree of precision for making finely detailed designs.
Made In Space, which was acquired earlier this year by new commercial space supply parent co. Redwire, has been at the forefront of creating and deploying 3D printing technologies in space, particularly through its partnership with the International Space Station. The goal of the company is to demonstrate the commercial benefits of in-space manufacturing, and to commercialize the technology in order to create tangible benefits for a number of industries right here on Earth.