The Super-lightweight Aerospace Composites (SAC) project seeks to scale up the manufacturing and use of high-strength carbon nanotube composite materials.
Carbon nanotubes consist of carbon atoms chemically bound in the shape of cylinders that are less than 1/80,000 the diameter of human hair. At that scale, carbon nanotubes are about 100 times stronger than steel and about eight times lighter.
“As NASA pushes the limits of space technology for use at the Moon and Mars, strong and lightweight materials are of interest for many applications,” said Jim Reuter, the acting associate administrator of NASA’s Space Technology Mission Directorate (STMD). “Our partners are playing an important role in maturing this technology.”
Led by NASA’s Langley Research Center in Hampton, Virginia, a team of researchers is working with other NASA centres, government agencies, academia and industry partners to move this technology forward. Eventually, carbon nanotube materials could be used to make rocket and spacecraft components.
“Ultra-lightweight materials is an exciting area of space technology,” said LaNetra Tate, program executive for NASA’s Game Changing Development program. “Carbon nanotubes have mechanical properties that promise high payoff for future exploration missions.”
NASA is conducting research in order to figure out how to build large structures from this material for different applications. To do that, NASA needs a lot more of the carbon nanotube material to work with.
That’s why NASA’s Game Changing Development program funded a Phase III Small Business Innovative Research (SBIR) contract with Nanocomp Technologies of Merrimack, New Hampshire. Nanocomp is working to scale up manufacturing capabilities and lower production costs of high-strength carbon nanotube yarn, building on previous SBIR awards from the Department of Defense and NASA.
“Other government agencies planted seeds with their early stage technology investments that we’re harvesting,” said Mia Siochi, senior research materials engineer and lead for SAC. “NASA’s goal is to begin using the larger quantities of material from Nanocomp to build structures within a few years.”
A flight test in 2017 demonstrated that the material can be used for Composite Overwrapped Pressure Vessels (COPVs), which are designed to hold fluid under pressure and are used in many capacities such as propellant tanks. The COPV was the first large item NASA built using carbon nanotube composites. Another NASA Phase III SBIR contract was awarded to San Diego Composites in California. Expanding on work started under Phase I and II Missile Defense Agency SBIR awards, the company will be building prototype COPVs made with carbon nanotube materials.
