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AFRL Materials and Manufacturing Directorate celebrates annual awards recipients
To create the virtual event, a studio-like setting was created for the awards ceremony. From left to right are Mr. Timothy Sakulich, Dr. Jonathan Spowart, Mr. Keith Slinker and Col. Michael Warner.
AFRL Materials and Manufacturing Directorate celebrates annual awards recipients
To create the virtual event, a studio-like setting was created for the awards ceremony. From left to right are Mr. Timothy Sakulich, Dr. Jonathan Spowart, Mr. Keith Slinker and Col. Michael Warner.
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Artistic rendering of AFRL-developed “Polymerized Liquid Metal Network” technology. (U.S. Air Force courtesy graphic/Second Bay Studios)
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From left to right: Dr. Derek Bas, Dr. Piyush Shah and Dr. Michael Page examine a potential acoustically driven ferromagnetic resonance material under a microscope in the magneto-optics lab. The microscope is designed to observe magnetic properties on a small scale. (U.S. Air Force photo/Michael Wolf)
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Brig. Gen. Jeannine Ryder (right) assumed command of the Air Force Research Laboratory’s 711th Human Performance Wing during a virtual change of command ceremony Aug. 31, 2020 at the Air Force Institute of Technology here. Brig. Gen. Heather Pringle (left), AFRL commander, presided over the ceremony, which was streamed live on AFIT's YouTube page to encourage social distancing during the COVID-19 pandemic. (U.S. Air Force photo/Richard Eldridge)
AFRL develops algorithm, flexible device for hands-free ultrasound
Conventional ultrasound hand-held rigid array of transducers. (Courtesy graphic)
AFRL develops algorithm, flexible device for hands-free ultrasound
The new flexible phased array probe was designed and manufactured to have both flexibility and mechanical integrity combined with improved acoustic properties. (Courtesy photo/Olympus Industrial Resources)
AFRL develops algorithm, flexible device for hands-free ultrasound
Flexible transducer prototype determines the location of transducers in a flexible array, so that ultrasound image can be determined without a rigid arrangement of transducers. (Courtesy photo)
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Members of the Ceramic Materials and Processing Research Team, from left to right: Ms. Christina Thompson, Dr. Dayton Street, Dr. Kara Martin and Dr. Matthew Dickerson. (U.S. Air Force photo/Karen Schlesinger)
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Side by side comparison of the two Light Emitting Diode fixture options. Per Master Sgt. Petersen both LED options were improvements over the legacy metal-halide fixtures. (U.S. Air Force photo/Master Sgt. Matthew Petersen)
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“Improved LED lighting makes B-52 maintenance safer, more efficient and more effective,” said Master Sgt. Matthew Petersen, B-52 Production Superintendent. (U.S. Air Force photo/Master Sgt. Matthew Peterson)
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Senior Airman Matthew Brown, Minot 5th Maintenance Squadron AGE Flight, compares a legacy metal-halide lamp with a new LED fixture. (U.S. Air Force photo/Master Sgt. Miguel Alvarez)
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Air Force Global Strike Command 5th Maintenance Squadron AGE Section Chief, Master Sgt. Miguel Alvarez, in front of four flightline light carts retro-fitted with the two different LED fixture options for testing. (U.S. Air Force photo/Senior Airman Matthew Brown)
AFRL and Republic of Singapore Air Force collaborate on coating systems for AF and DOD assets
A Corrosion Environment Measurement System (CEMS-3000), set up by Corrosion Prognostics LLC and the Air Force Research Laboratory Corrosion Integrated Product Team at the Republic of Singapore Air Force Base, would provide corrosion data depicting the viability of non-chrome coatings in aggressive corrosion environments. (Courtesy photo)
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Researchers from the Air Force Research Laboratory 711th Human Performance Wing will collect samples from healthy Wright-Patterson AFB military, civilian, and contractor volunteers for a new research study evaluating emerging testing methodologies for detecting past and present COVID-19 infections. (U.S. Air Force photo/Richard Eldridge)
Healthy volunteers needed for AFRL COVID-19 testing solutions research
Air Force Research Laboratory team member Joshua Trice collects a saliva sample from a teammate during a dry-run preparation on July 22, 2020, for an upcoming research study. For this study, led by the 711th Human Performance Wing, researchers will collect samples from healthy Wright-Patterson AFB military, civilian, and contractor volunteers to evaluate emerging testing methodologies for detecting past and present COVID-19 infections. (U.S. Air Force photo/Richard Eldridge)
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Dr. Sean Donegan of the Air Force Research Laboratory, is a participant in the NAE 2020 US Frontiers of Engineering Symposium. He is a research materials engineer and lead for a Center of Excellence in machine learning for materials science with Carnegie Mellon University. (Courtesy photo)
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AFRL scientist, Dr. Vincent Chen, demonstrates the experimental setup used to trigger shape change in soft, magnetically responsive elastomers. (U.S. Air Force photo/Spencer Deer)
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The Rectangular Coaxial Transmission Line (R-Coax 17), is a novel nondestructive evaluation tool which provides a critical quality assurance tool during thin material production. (Courtesy photo/Compass Technology Group)
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Traveling Wave Backscatter Probe identifies gaps in the advanced aircraft coatings notifying the maintainer of aircraft health concerns. (Courtesy photo/Compass Technology Group)