笔谤辞蹿别蝉蝉辞谤听Iain Boyd is thinking fast. Extremely fast. So fast that breaking the sound barrier is practically standing still.
Welcome to the world of hypersonics, where the minimum speed is it least 3,836 mph, or five times the speed of sound.
Boyd's work focuses on the physics problems of hypersonic flight. Vehicles that would travel at such high speeds build up incredible amounts of heat due to friction with the surrounding air. Temperatures on their exterior surfaces can reach 1,000 degrees Celsius (1,800 degrees Fahrenheit) or higher.
Boyd recently joined the Ann and H.J. Smead Department of Aerospace Engineering Sciences as a professor听and is the director of听the college's new Hypersonic Vehicles听Interdiciplinary Research Theme. He said hypersonics is听a very听active area of research around the world, although it will likely be a very long time before you book a flight on a future commercial jetliner that reaches such speeds. The focus in hypersonics righ now is instead on听national defense.
Both Russia and China are investing in hypersonics and claim to have held successful test flights.
鈥淥ther countries have made a big splash in saying they've made progress on hypersonic weapons,鈥 Boyd said. 鈥淭hey're very difficult to defend against, so the U.S. is engaged in developing counter measures to other people鈥檚 systems as well as designing systems of our own.鈥
Boyd comes to CU 麻豆影院 after two decades at the University of Michigan and is an internationally recognized expert in the field of hypersonics. He said听he听is excited to take advantage of Colorado鈥檚 strong aerospace connections in academia, government and private industry.
鈥淲e work with government agencies 鈥 like NASA and the Air Force 颅鈥 companies, and other universities who are experimenting with materials. The ultimate goal is to design what the materials should be for a particular hypersonic vehicle,鈥 Boyd said.
He said he is working to build collaborations with other faculty within Smead Aerospace and elsewhere on campus who are conducting hypersonics-related research in materials and controls.
Boyd has also been named national security faculty director for the CU 麻豆影院 Research &听Innovation Office. In this capacity, he will be building new research partnerships between campus and the defense community.
While CU 麻豆影院 has long-standing relationships with NASA, as well as aerospace business leaders like Lockheed Martin and Ball Aerospace, much of that is on the civilian, space exploration side of the industry. As national security director, Boyd will be working to expand the university's connections with aerospace defense.
Aerospace is not the only area that could see growth. Boyd said quantum technology and atmospheric modeling 鈥 both areas of active research on campus 鈥 also have national security applications.
鈥淭here are all kinds of things being worked on here that also affect national security,鈥 Boyd said. 鈥淲e want to build on those connections, and bring people together to organize larger collaborations in national defense and intelligence.鈥