NASA Awards Advance 3D Printing, Quantum Tech for Climate Research

New technology is a key to helping NASA advance its long-term exploration goals for the benefit of all. To support its effort, the agency announced Thursday it will create two new institutes to develop technology in critical areas for engineering and climate research.

Mar 20, 2023 - 10:30
Mar 11, 2024 - 15:05
 0
NASA Awards Advance 3D Printing, Quantum Tech for Climate Research
The Perito Moreno Glacier in Argentina is seen from the International Space Station on Feb. 21, 2012. A new NASA Space Technology Research Institute will specialize in advancing quantum sensing technology for improved mass change measurements from orbit, which will help scientists understand the movement of ice and water on Earth’s surface. Credits: NASA
Techatty All-in-1 Publishing
Techatty All-in-1 Publishing

New technology is a key to helping NASA advance its long-term exploration goals for the benefit of all. To support its effort, the agency announced Thursday it will create two new institutes to develop technology in critical areas for engineering and climate research.  

Two new Space Technology Research Institutes (STRIs) will leverage teams led by U.S. universities to create multidisciplinary research and technology development programs critical to NASA's future. By bringing together science, engineering, and other disciplines from universities, industry, and non-profits, the institutes aim to impact future aerospace capabilities through investments in early-stage technology.

One of the research institutes will focus on quantum sensing technology in support of climate research. The other will work to improve understanding and help enable rapid certification of metal parts created using advanced manufacturing techniques.

Talk to Techatty
Talk to Techatty

"We're thrilled to draw on the expertise of these multi-university teams to create technology for some of our most pressing needs," said Jim Reuter, associate administrator for the agency’s Space Technology Mission Directorate at NASA Headquarters in Washington. "Their work will enable next-generation science for studying our home planet and broaden the use of 3D-printed metal parts for spaceflight with state-of-the-art modeling."

Each institute will receive up to $15 million over five years.

Web and Cloud LLC - talk to us and let's discuss your needs.
Let's help transform your business
A NASA project called Long Life Additive Manufacturing Assembly (LLAMA) is 3D printing methods for building rocket engine components.
A NASA project called Long Life Additive Manufacturing Assembly (LLAMA) is 3D printing methods for building rocket engine components. A new NASA Space Technology Research Institute will develop advanced computer models to help engineers better understand and validate the characteristics of additively manufactured metal parts for use in spaceflight.
Credits: NASA

Quantum Pathways Institute

The University of Texas at Austin will lead the Quantum Pathways Institute, focused on advancing quantum sensing technology for next-generation Earth science applications. Such technology would enable new understanding of our planet and the effects of climate change. 

Quantum sensors use quantum physics principles to potentially collect more precise data and enable unprecedented science measurements. These sensors could be particularly useful for satellites in orbit around Earth to collect mass change data – a type of measurement that can tell scientists about how ice, oceans, and land water are moving and changing. Though the basic physics and technology for quantum sensors have been proven in concept, work is required to develop quantum sensors at the precisions necessary for next-generation science needs during spaceflight missions.

"Quantum sensing methods have shown a great deal of promise in computing, communications, and now for Earth science remote sensing applications," said Dr. Srinivas Bettadpur, principal investigator for the institute and professor of aerospace engineering and engineering mechanics at the University of Texas at Austin. "Our intent is to advance this technology and get it ready for space as soon as we can."

The institute will work to further advance the physics underlying quantum sensors, design how these sensors could be built for space missions and understand how mission design and systems engineering would need to adapt to accommodate this new technology.

Partners on the institute include University of Colorado Boulder; University of California, Santa Barbara; California Institute of Technology; and the National Institute of Standards and Technology.

Institute for Model-Based Qualification & Certification of Additive Manufacturing (IMQCAM)

Carnegie Mellon University in Pittsburgh will lead Institute for Model-based Qualification & Certification of Additive Manufacturing (IMQCAM) aiming to improve computer models of 3D-printed – also called additively manufactured – metal parts and expand their utility in spaceflight applications. The institute will be co-led by Johns Hopkins University in Baltimore.

Metal parts 3D-printed are made from powdered metals, which are melted in specific ways and shaped into useful parts. Such parts could be useful for things like rocket engines – giving more flexibility to create new parts when designs change – or as part of a human outpost on the Moon, where bringing pre-fabricated parts would be expensive and limiting. However, efficient certification and use of such parts requires high-accuracy predictions of their characteristics.

"The internal structure of this type of part is much different than what's produced by any other method," said Tony Rollett, principal investigator for the institute and US Steel professor of metallurgical engineering and materials science at Carnegie Mellon University. "The institute will focus on creating the models NASA and others in industry would need to use these parts on a daily basis."

NASA The National Aeronautics and Space Administration is America’s civil space program and the global leader in space exploration. The agency has a diverse workforce of just under 18,000 civil servants, and works with many more U.S. contractors, academia, and international and commercial partners to explore, discover, and expand knowledge for the benefit of humanity.