NASA Selects USU Engineering Team for Small Rocket Motor Research


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April 18, 2016 – Aerospace engineering students at Utah State University are leading exciting new research into the future of small rocket motors. The team of undergraduate students, led by Professor Tony Whitmore, will get a $200,000 NASA grant to better understand how a new generation of “green” rocket motors could help revolutionize the space industry.

Quick Read:
  • Aerospace engineering team will get $200K NASA grant to further develop and test small, next-gen rocket motors.
  • Purpose of research is to determine if exhaust plumes from new motor design can contaminate solar panels and other external spacecraft surfaces.
  • Student project will fly on NASA sounding rocket in 2018.

The small, next-generation motors developed at USU are made of multiple layers of printed ABS plastic. The engineered layering process creates a meshwork of finely spaced voids in the material. When electrodes are added to the structure and voltage is applied,


Students and faculty at Utah State University watch as a small rocket motor is tested. USU has developed a method to make a safer, next-generation motor using printed ABS plastic and inexpensive components.

electrical charges accumulate in the small spaces and allow an electrical arc to build up in the core of the motor. By simultaneously introducing oxygen, the evaporated fuel material burns and a rocket motor is born. The small motors are highly efficient and have remarkable stop and restart capabilities. Using 3-D printing to achieve the proper surface structure is an essential feature of the motor design.

Whitmore, who created the technology, says the units are a promising alternative to the motors used on small spacecraft today that use the highly toxic and unstable liquid fuel hydrazine. He says the mini rockets could be used in several applications and are ideal for use as a thruster on small satellites. With funding from NASA, Whitmore’s team will flight test the motors to determine if their exhaust plumes can contaminate sensors, electronics, solar panels and other external surfaces on the spacecraft.

Green Motor

The small motors are made by printing multiple layers of ABS plastic.

To test the concept, NASA will provide a sounding rocket that will launch in mid 2018 from the Wallops Flight Facility in Virginia. The sounding rocket and its USU thruster payload will reach a maximum altitude of 100 km and will experience zero gravity for more than five minutes. During this time, the thruster will deliver multiple pulses totaling 15 to 20 seconds of burn time. Such in-flight measurements have never been obtained for this class of hybrid rocket system.

As a risk mitigation activity, NASA Marshall Space Flight Center in Huntsville, Ala., has provided an additional $30,000 from its Dual-Use Technology Program for ground-based vacuum tunnel testing of the thruster and plume contamination sensors. Testing at MSFC will occur during a six-week period this summer.

“This is an exciting project in that USU undergraduate students will perform the majority of design, fabrication and testing as part of their capstone senior design course,” said Whitmore. “Students will gain invaluable industrial

Whitmore with students

Utah State University professor of aerospace engineering Tony Whitmore with students.

experience working with the NASA safety review and launch integration teams, and will get to see the unforgettable experience of watching a payload they built rocket off and disappear into the sky.”

The payload will splash down and be recovered in the Atlantic Ocean more than 60 km downrange from its initial launch point. The team will analyze the payload and multiple aspects of the mission to determine how much plume contamination the new motors generate.

NASA awarded more than $8 million through the competitively selected Undergraduate Student Instrument Project to 47 teams of students to conduct hands-on flight research. The proposals encompass a wide range of technologies and help NASA develop future leaders in space science technology.

Flight operations will be run by the NASA Sounding Rocket Operations Contract (NSROC). USU faculty and students will work directly with NSROC to integrate the payload. On launch day, NSROC will manage launch operations, but it's anticipated the USU team will attend the launch with several key payload team members sitting in the mission operations center.


Media Contacts:

Stephen (Tony) Whitmore | Utah State University | Dept. of Mechanical & Aerospace Engineering
435-797-2951 |

Matt Jensen | Utah State University | College of Engineering
435-797-8170 office | 801-362-0830 cell | | @EngineeringUSU

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