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AFRL Fuels & Energy enables future of flight
Milissa Griesenbrock, Air Force Research Laboratory Fuels and Energy branch co-lead for High Impact Technology 1 - Fuel Science and research chemist, gives a tour of a fuel system simulator. The FSS simulates time and temperature heat loads along the flow pathway of jet fuel in order to investigate impacts of different fuel chemistries on real and simulated hardware. (U.S. Air Force photo/John Harrington)
AFRL Fuels & Energy enables future of flight
Zachary West, a Senior Research engineer with the University of Dayton Research Institute who works at the Air Force Research Laboratory Fuels and Energy branch, holds a sample of jet fuel diluted in solvent ready for analysis to look for trace contamination. Components, even in the parts-per-million level, can significantly affect how a fuel performs. (U.S. Air Force photo/John Harrington)
AFRL Tech Warrior instructors train scientists, engineers in practical warfighter skills
Tech Warrior participants practice dismounted operations during training week at the AFRL Tech Warrior 2017 event. Tech Warrior participants undergo a week of classroom and practical field training activities designed to provide a fundamental understanding of different missions and tactics for battlefield success. The participants, most of whom are scientists and engineers at AFRL, gain a firsthand understanding of the rigorous training and stresses airmen experience in the operational field to enable them to return to the lab to create better technologies for the warfighter. (U.S. Air Force photo/Marisa Alia-Novobilski)
AFRL Tech Warrior instructors train scientists, engineers in practical warfighter skills
FAIRBORN, Ohio – Master Sgt. Gary Hasecuster, an investigator at the 88th Security Forces Squadron and Tech Warrior instructor, provides hand-to-hand combatives instruction to a participant during training week at the AFRL Tech Warrior 2017 event. Tech Warrior participants undergo a week of classroom and practical field training activities designed to provide a fundamental understanding of different missions and tactics for battlefield success. The participants, most of whom are scientists and engineers at AFRL, gain a firsthand understanding of the rigorous training and stresses airmen experience in the operational field to enable them to return to the lab to create better technologies for the warfighter. (U.S. Air Force photo by Marisa Alia-Novobilski/released)
AFRL selects fellows from Materials and Manufacturing Directorate
Dr. Ajit Roy, Air Force Research Laboratory's Computational Nanomaterials of the Materials and Manufacturing Directorate principal engineer and group lead uses a Physical Vapor Deposition system set up for thin film materials deposition on a substrate. (Air Force Photo/David Dixon)
AFRL selects fellows from Materials and Manufacturing Directorate
Dr. Allan Katz, High Temperature Silicon-Carbide-Fiber-Reinforced Silicon Carbide Composites for Turbines program manager of the Air Force Research Laboratory's Materials and Manufacturing Directorate observes an oxyacetylene torch test to screen materials for application on hypersonic platforms. (Air Force Photo/David Dixon)
Air Force testing shows advanced joint technology a viable method for aircraft assembly
A Northrop Grumman splice joint specimen is shown before (left) and after (right) undergoing testing in the 200 MTS Test Stand at the Facility for Innovative Research in Structures Technology in the Air Force Research Laboratory Aerospace Systems Directorate. The testing was conducted under a cooperative research and development agreement between the directorate and Northrop Grumman. (Courtesy Photo/AFRL)
AFRL to host Tech Warrior 2017 exercise
Participants provide critical care to a simulated combat casualty during the Air Force Research Laboratory's Tech Warrior 2016 exercise. AFRL will hold this year's home station deployment exercise at the National Center for Medical Readiness (NCMR) in Fairborn, Ohio, September 19-29. Tech Warrior 2017 provides AFRL scientists and engineers the opportunity to experience field, mobility and combat skills training to gain a better understanding of the operational environment. (U.S. Air Force courtesy photo)
AFRL researchers trace history of innovation during Aviation Heritage Tour
Gerald Landis examines a flight exhibit at the Wright Brothers’ Bicycle Shop. A group of military and civilian scientists, staff and engineers from AFRL's Materials and Manufacturing directorate visited significant aviation history sites across Dayton during an Aviation Heritage Tour to gain a better understanding of the evolution of innovation in Dayton, the legacy of which the AFRL carries on today. (U.S. Air Force photo/Marisa Alia-Novobilski)
AFRL researchers trace history of innovation during Aviation Heritage Tour
A group of military and civilian scientists, staff and engineers from the AFRL Materials and Manufacturing Directorate pose for a photo outside the Wright Brothers Mansion during an Aviation History Tour of Dayton, September 13. The event, coinciding with the directorate’s 100 year anniversary, traced the evolution of innovation in Dayton, with stops at significant aviation history sites across the region. (U.S. Air Force photo/Marisa Alia-Novobilski)
AFRL researchers trace history of innovation during Aviation Heritage Tour
The AFRL Materials and Manufacturing Directorate’s Aviation Heritage Tour ended at the new AFRL Wright Brothers Institute, located in the growing downtown Dayton innovation district, where today’s AFRL scientists and engineers carry on the Wright brothers’ legacy of innovation while working alongside business and industry entrepreneurs to accelerate the pace of technology for the future. (U.S. Air Force photo/Marisa Alia-Novobilski)
AFRL researchers trace history of innovation during Aviation Heritage Tour
Col. Charles Ormsby, Acting Director, AFRL Materials and Manufacturing Directorate, views displays at the site of the original Wright Brothers’ Bicycle Shop in downtown Dayton, September 13. Ormsby accompanied a group of military and civilian scientists, staff and engineers from the directorate on a visit to significant aviation history sites across Dayton during an Aviation Heritage Tour to gain a better understanding of the evolution of innovation in Dayton, the legacy of which the AFRL carries on today. (U.S. Air Force photo/Marisa Alia-Novobilski)
Unique high-brilliance X-ray sheds new light on additive manufacturing process
The AFRL Polymer Matrix Composite Materials and Processing team was granted the opportunity to work in collaboration with beamline scientists at the National Synchrotron Light Source II at Brookhaven National Laboratory, allowing them the opportunity to gain an unprecedented view into the behavior of additive manufacturing materials and processes. (U.S. Air Force photo/Hilmar Koerner)
Unique high-brilliance X-ray sheds new light on additive manufacturing process
The additive manufacturing process involves depositing thin layers of composite materials on top of each other. AFRL Composite Materials and Processing team researchers used the ultra-bright X-ray at the National Synchrotron Light Source II at Brookhaven National Laboratory to gain better insight into the bonding of composite layers during the additive manufacturing process. (U.S. Air Force photo/Harry Pierson)
AFRL researchers ‘twist’ yarns for electrical energy, power
Scientists at the Air Force Research Laboratory are exploring the use of carbon nanotube-based twistron yarns for energy generation. This twistron yarn image, captured by x-Ray tomography, is a 3-D rendering of the coiled nanotube fibers and provides information on the structures, defects and interfaces internal to the fibers at the nanoscale. By examining the twistron yarns at the micro-level, researchers hope to better understand the dynamic process of energy generation by the yarns under deformation. (U.S. Air Force photo/Matt Lucas)
AFRL shares UAV software to further research
Capt. Anthony Castello views the Vigilant Spirit Control Station at Wright-Patterson Air Force Base, Ohio. Engineers in the 711th Human Performance Wing's Supervisory Control & Cognition Branch developed the software which allows operators to control multiple UAVs at once. The software package offers multi-role, human-machine teaming and an advanced simulation and training component. It is currently being shared with the multiple companies through information transfer agreements. (U.S. Air Force courtesy photo)
Overcoming GPS-contested environments
Personnel from the 724th Special Tactics Group at Fort Bragg, North Carolina, recently tested new navigation technology developed by Echo Ridge, a small business, in partnership with the Air Force Research Laboratory Sensors Directorate at Wright-Patterson Air Force Base, Ohio. (U.S. Air Force/Courtesy photo)
2015 AFRL Commanders Challenge
Former U.S. Air Force Capt. Chris Perrine, Air Force Life Cycle Management Center, chief of acquisitions for net centric services-2, from Robbins Air Force Base, Ga., monitors his team’s active shooter detection system during the 2015 Air Force Research Laboratory Commander’s Challenge. The system, which was patented by the Air Force, enables dispatchers to see exactly where in the building an alarm was activated and inform emergency responders, allowing them to better respond to the threat. Protective Innovations LLC, a company started by Perrine after his separation, licensed the technology for commercialization in 2017. (U.S. Air Force photo by Wesley Farnsworth)
Tri-Service effort leverages synthetic biology expertise to address future warfighter needs
Members of the Air Force, Army and Navy Research Laboratories visit the Air Force Research Laboratory’s Materials and Manufacturing Directorate to learn of the unique capabilities and facilities available to support research efforts in synthetic biology. The tri- service Applied Research for the Advancement of Science and Technology Priorities Program on Synthetic Biology for Military Environments unites researchers from each of the service laboratories in an effort to create the organic capabilities and infrastructure within the DoD for synthetic biology for future defense technology. (U.S. Air Force photo / Marisa Alia-Novobilski)
Tri-Service effort leverages synthetic biology expertise to address future warfighter needs
Dr. Chia Hung discusses current research in the biology lab at the Air Force Research Laboratory’s Materials and Manufacturing directorate during a visit of members of the tri-service Applied Research for the Advancement of Science and Technology Priorities Program on Synthetic Biology for Military Environments . The program unites researchers from each of the service laboratories in an effort to create the organic capabilities and infrastructure within the DoD for synthetic biology for future defense technology. (U.S. Air Force photo / Marisa Alia-Novobilski)