Aerojet Rocketdyne successfully tests advanced large solid rocket motor
Aerojet Rocketdyne recently completed a successful static-fire test of an advanced large solid rocket motor, called the Missile Components Advanced Technologies Demonstration Motor (MCAT Demo), under contract with the Air Force Research Laboratory (AFRL).
Aerojet Rocketdyne’s MCAT Demo large solid rocket motor design incorporates numerous advanced technologies and materials. The program’s primary goal is to develop technologies to increase propulsion performance and lower manufacturing and operational costs for future applications.
In order to meet the goals, the MCAT Demo design consists of a state-of-the-art graphite composite case, an affordable advanced nozzle and high-energy, long-life solid propellant.
Eileen Drake, Aerojet Rocketdyne CEO and president, said, “Aerojet Rocketdyne has produced large solid rocket motors for critical defence programs for more than 60 years, to include powering every US Air Force ICBM ever fielded.
“Today we are building a family of modern large solid rocket motors with improved performance at lower costs; the research and development efforts for the Missile Components Advanced Technologies program are crucial to our nation’s strategic strike capability.”
During the static firing, the 52-inch diameter MCAT Demo motor fired successfully. Initial post-test inspection indicates that all components functioned as designed. AFRL provided technical and managerial oversight of the MCAT contract.
“The successful MCAT Demo enables future Air Force ICBMs to deliver higher performance while reducing cost. We are committed to providing world-class technology for Air Force Nuclear Deterrence Operations, and we are very pleased with the outcome of the MCAT Demo,” explained Jason Mossman, chief of the motors branch at AFRL, Edwards Air Force Base.
AFRL facilitated the testing at the Utah Test and Training Range to demonstrate the performance of the Aerojet Rocketdyne MCAT rocket motor.
The MCAT Demo motor firing is the first test in a series of strategic-sized motor demonstrations planned in the near future.
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