When companies try to “build a better mousetrap,” the process can involve a lot of internal studies and tests on the kinds of materials to use and effective designs. It can be a time-consuming but necessary operation, which means less time for people to use the device to solve a particular problem.
NASA and the National Institute of Standards and Technology (NIST) are collaborating to help scientists and innovators build that new mousetrap by accelerating materials development, and make new discoveries using data from the hundreds of investigations on the International Space Station.
An initiative between the two government agencies has created MaterialsLab—a new approach to materials science research that will provide unprecedented worldwide collaboration. Each space station investigation provides scientists with a better understanding of the physical and chemical properties of materials, allowing insight on how they develop and behave without gravity affecting the results. The MaterialsLab approach enhances the way researchers in government, industry, and academia develop investigations and share information.
“We’re creating a new opportunity to develop materials experiments in space that makes it easier for scientists to conduct these investigations and share their research and data widely with the scientific community,” said Marshall Porterfield, NASA’s Director of Space Life and Physical Sciences in the agency’s Human Exploration and Operations Mission Directorate at NASA Headquarters in Washington, DC. “The Open Science concept allows multiple researchers around the world ... to access data from station experiments and build on each other’s work.”
NASA and NIST recently signed a Memorandum of Understanding to foster collaboration among NASA’s microgravity materials science program, the NIST Material Measurement Laboratory, and the multi-agency Materials Genome Initiative.
MaterialsLab will share data from past and present space station investigations through NASA’s Physical Science Informatics system—a resource for processing and sorting data from physical science experiments performed aboard the orbiting laboratory. The goal is to promote an open-access approach to scientific data analysis and potentially guide hundreds of new, station-based scientific investigations.
With MaterialsLab, NASA is changing the way scientists conduct research by adding a slight twist. Now, space station materials research will aim to solve engineering problems that not only relate to space travel, but also target a specific outcome or attack a materials problem identified by industry.
“We want to conduct new investigations that fulfill a specific industry need or could lead to a new commercial application,” said John Vickers, the manager of the National Center for Advanced Manufacturing at NASA’s Marshall Space Flight Center in Huntsville, Ala. “If the automobile industry is having a problem with a specific material, we may be able to study that material on the station and get an answer that they couldn’t obtain through ground-based research. We are not only learning about the material, but also providing valuable data that immediately affects companies and consumers on Earth.”
Through MaterialsLab, NASA is changing the way scientists share data and even their approach to proposing experiments. “It should be easy for investigators to access current data from experiments and use it to determine if there are gaps in knowledge that can be addressed with new investigations,” Porterfield said.
NASA leaders want to continue scientific experiments to learn more about the world and the universe. They also want to change the way research is conducted by fostering a spirit of collaboration to share results from investigations on the orbiting laboratory as soon as possible.