Skip to main content (Press Enter).
U.S. Air Force Logo
Home
Welcome
About Us
Biographies
Fact Sheets
Connect Club
Units
88th ABW
Public Affairs
Strategic Plan
88th Force Support Squadron
445th Airlift Wing
655th Intelligence, Surveillance, & Reconnaissance Wing
Air Force Materiel Command
Air Force Life Cycle Management Center
Air Force Research Laboratory
Air Force Installation Contracting Center
Air Force Institute of Technology
Military & Family Readiness Center
National Air & Space Intelligence Center
National Museum of the USAF
Naval Medical Research Unit Dayton
USAF Marathon Office
Wright-Patterson Medical Center
News
Photos
Video
Dominate the Dirty Work
Contact Us
Sexual Misconduct Disciplinary Actions
Bulletin
Skywrighter
Wright-Patterson AFB
Skywrighter
Phone Directory
Contact Us
Wright-Patterson AFB Photo Gallery
THE FOLLOWING KEY WORDS WILL SEARCH BY THOSE CATEGORIES: BASE EVENTS; BASE EXERCISES; PEOPLE, WPAFB IN THE COMMUNITY
Sort By
Upload Date
Photo Date
Title
Category
All Images
445th Airlift Wing
655th Intelligence, Surveillance, & Reconnaissance Wing
88th Air Base Wing
88th Force Support Squadron
Air Force Installation Contracting Center
Air Force Institute of Technology
Air Force Life Cycle Management Center
Air Force Marathon
Air Force Materiel Command
Air Force Research Laboratory
Community Partnerships
Dominate the Dirty Work
Graphic
History & Heritage
Icon
Military & Family Readiness Center
Missions & Organizations
National Air & Space Intelligence Center
National Museum of the USAF
Naval Medical Research Unit Dayton
People & Professions
United States Air Force
USAF Band of Flight
Wright-Patterson Medical Center
Show Advanced Options
Only 100 pages of images will display. Consider refining search terms for better results.
Clear Filters
|
41 - 60 of 67 results
AFRL agreement aimed at protecting public from UAS noise
A small unmanned aerial system undergoes tests in the Acoustics Laboratory at Owens Corning Science and Technology Center in Granville, Ohio. The Air Force Research Laboratory 711th Human Performance Wing, Airman Systems Directorate, Battlespace Acoustics Branch and Owens Corning have entered into a Cooperative Research and Development Agreement to develop and understand best practices for measuring and labeling the sound produced by small commercial unmanned air systems. (Courtesy photo / Owens Corning)
Details
Download
Share
Next generation coatings booth poised to save Air Force millions in energy
A next generation F-35 coatings application booth at Hill Air Force Base is set to become initially operational by October 2017. The state-of-the-art coatings booth project, led by the Air Force Research Laboratory’s Advanced Power Technology Office, is expected to save more than $330,000 annually in energy through the employment of advanced sensors, control logic and sophisticated software analysis tools to monitor and improve performance over the lifetime of the complex. (U.S. Air Force Courtesy Photo)
Details
Download
Share
Air Force partnership with university enables 3D technology research
A test participant receives a 3-D full body scan at Bowling Green State University in Ohio. The participant is attempting to conceal an illegal object under their clothing through a simulated security checkpoint. This research was possible through an educational partnership agreement between the Air Force Research Laboratory 711th Human Performance Wing and Bowling Green State University. The research focused on human biomechanics and 3-D motion analysis. A specific area of interest was the change of size, shape and motion when an individual has concealed objects in the torso. Results from this research are projected to improve defense and security processes for the military. (Image courtesy of Bowling Green State University)
Details
Download
Share
Digital Thread laces decision-making, data for Air Force acquisition
Dr. John Wertz, a materials research scientist in the Materials State Awareness Branch, Materials and Manufacturing Directorate, Air Force Research Laboratory, demonstrates Digital Thread concept applications to aircraft maintenance activities. Real time aircraft data, checklists and feedback through Digital Thread capabilities can enable better decision making by warfighters on the field, enhancing life cycle sustainment of Air Force platforms. (U.S. Air Force photo / Marisa Alia-Novobilski)
Details
Download
Share
AFRL agreement will further non-contact inspection method developments
The Hole-to-Edge Measurement Technology system performs a non-contact inspection. The HEMT was developed by Creare, LLC under an Air Force Small Business Innovation Research agreement. The technology and other equipment was temporarily transferred to Creare, LLC under a Cooperative Research and Development Agreement with the Air Force Research Laboratory Materials and Manufacturing Directorate. (Courtesy photo/Creare, LLC)
Details
Download
Share
Researchers turn to liquid metals for agile electronics
The oxide skin on gallium-based liquid metals, shown here in suspension, give the materials the ability to hold a shape and to be reconfigured into new shapes that can maintain electrical conductivity. Scientists at the Air Force Research Laboratory have demonstrated the capacity for liquid metal alloys to be flowed through embedded material channels to create physically reconfigurable antennas and electronic circuits. (U.S. Air Force photo/Marisa Alia-Novobilski)
Details
Download
Share
Researchers turn to liquid metals for agile electronics
Embedded channel systems can be 3-D printed within an aerospace-grade structural composite in diverse shapes to flow liquid metal alloys to different positions, ultimately changing the function of embedded radio frequency antennas. (U.S. Air Force photo/Marisa Alia-Novobilski)
Details
Download
Share
Researchers turn to liquid metals for agile electronics
Dr. Zachary Farrell, a research scientist with UES in the Nanoelectronics Branch of the Materials and Manufacturing Directorate, Air Force Research Laboratory, examines liquid metal nanoparticles following ultra-sonication. Researchers here are exploring new potential applications for liquid metals by examining their microscopic properties. (U.S. Air Force photo/ Marisa Alia-Novobilski)
Details
Download
Share
Researchers turn to liquid metals for agile electronics
Scientists at the Air Force Research Laboratory are using the unique characteristic of liquid metal alloys to explore new ways to wire electronic systems. The unique properties of liquid metal alloys enable droplets to stack upon one another, unlike traditional liquids which flow into a singular shape. (Air Force courtesy photo)
Details
Download
Share
30th Space Wing partners with Discovery Museum to create space launch exhibit
A rendering of the future Vandenberg Launch Exhibit that will be installed at the Santa Maria Valley Discovery Museum in 2017. The exhibit is part of an Educational Partnership Agreement between the museum and the 30th Space Wing at Vandenberg Air Force Base, California. (Courtesy photo / 30th Space Wing)
Details
Download
Share
Aerospace Systems Directorate Uses Educational Partnerships to Further STEM Program
Air Force Capt. Joseph Ausserer assists Aerospace Propulsion Outreach Program students installing their design for testing and evaluation in the Aerospace Systems Directorate’s Small Engine Research Laboratory. The program, referred to as APOP, is a directorate science, technology, engineering, and math (STEM) initiative that funds year-long undergraduate engineer capstone programs across the country that focus on gas turbine engine projects. (Courtesy Photo)
Details
Download
Share
Embracing opportunity: additive technology for manufacturing
Dr. Mark Benedict, a senior materials engineer and America Makes Chief Technology Adviser at the Air Force Research Laboratory’s Materials and Manufacturing Directorate discusses the potential for additive manufacturing of aircraft components in metal. The complex geometry of the rocket nozzle benefits from the use of additive manufacturing due to its complex, specialized design. (U.S. Air Force photo/ Marisa Alia-Novobilski)
Details
Download
Share
Embracing opportunity: additive technology for manufacturing
Dr. Dan Berrigan points to an embedded antenna on an MQ-9 aircraft part made possible through functional applications of additive manufacturing. Flexible circuits, embedded antennas and sensors are just a few of the potential manufacturing capabilities his team is exploring using additive technology. (U.S. Air Force photo/Marisa Alia-Novobilski)
Details
Download
Share
Embracing opportunity: additive technology for manufacturing
Dr. Dan Berrigan, the functional additive manufacturing lead for the Air Force Research Laboratory’s Materials and Manufacturing Directorate, is exploring new ways to add functionality to existing objects through additive manufacturing. Flexible circuits, embedded antennas and sensors are just a few of the potential manufacturing capabilities provided by additive technologies. (U.S. Air Force photo/Marisa Alia-Novobilski)
Details
Download
Share
AgilePod ‘reconfiguring’ ISR mission
Air Force Research Laboratory’s AgilePod is a multi-intelligence, open architecture, reconfigurable prototype designed for the intelligence, surveillance and reconnaissance (ISR) and Air Force Special Operations communities. The reconfigurable pod enables operators to customize sensor packages based on specific mission needs, enhancing the intelligence process. The pod capability will be tested on a medium altitude MQ-9 surrogate aircraft in May 2017. (Courtesy photo/released)
Details
Download
Share
Air Force Agreement Allows Ionospheric Research to Continue
View of the High Frequency Active Auroral Research Program array with Mount Drum in the distance. Under a Cooperative Research and Development Agreement between the Air Force Research Laboratory’s Space Vehicles Directorate and the University of Alaska Fairbanks, AFRL transitioned the site to the university, ensuring that twenty-five years of atmospheric research will continue at the facility. (Courtesy photo / Jessica Matthews, University of Alaska Fairbanks)
Details
Download
Share
Air Force Partners with Athletes and Coaches for Evaluation of Stress, Development of Recovery Methods
Real-time performance monitoring technologies is streaming physiological data during training at the Ohio State University. This research was done as part of a Cooperative Research and Development Agreement (CRADA) between the 711th Human Performance Wing at Wright-Patterson Air Force Base, Ohio and the Ohio State University. The collected information results in a daily report for measuring stress and recovery states and determining the future workloads and specific recovery modalities to help athletes and ultimately warfighters. The data collected for personalized recovery are based off of real-time exertion, daily readiness and heart rate variability (HRV) technology. (Photo courtesy of the Ohio State University)
Details
Download
Share
Air Force Partners with Athletes and Coaches for Evaluation of Stress, Development of Recovery Methods
Ohio State athlete Craig Fada performs an OmegaWave heart rate variability and central nervous system test as part of a Cooperative Research and Development Agreement (CRADA) between the 711th Human Performance Wing at Wright-Patterson Air Force Base and the Ohio State University. This test is used to personalize recovery. (Photo Courtesy of the Ohio State University)
Details
Download
Share
Flexing in the line of fire: lightweight, flexible body armor for the force of the future
WRIGHT-PATTERSON AIR FORCE BASE, Ohio – 1st. Lt. Jason Goins, a materials research engineer at the Air Force Research Laboratory, shows a prototype of a new flexible body armor plate. The design makes the use of a ceramic ball matrix encapsulated in foam material, which is then backed with multiple layers of polyethylene sheets. (U.S. Air Force photo by Marisa Novobilski/released)
Details
Download
Share
Flexible batteries: evolving energy for the ‘new’ reality
The flexible lithium-ion batteries developed by researchers at Air Force Research Laboratory are able to maintain a steady voltage discharge following extreme mechanical stress testing. The flexible batteries have the potential to power countless flexible electronic devices under development, including human performance sensors and flexible displays. (U.S. Air Force photo by Marisa Alia-Novobilski/released)
Details
Download
Share
1
2
3
4
Go To Page
of 4
Go
2
3
4
Go To Page
of 4
Go