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
|
61 - 80 of 88 results
Unique chamber brings real-world corrosion test capabilities to AFRL
The scribed test sample on the left represents the traditional method of corrosion testing, in which researchers etch through both topcoat and primer layers to simulate damage and resulting corrosion. The new Accelerated Combined-Effects Simulation test chamber enables more realistic full-scale testing of specimens similar to the one on the right, by simultaneously subjecting samples to realistic fatigue testing and environmental conditions. (U.S. Air Force photo illustration by Holly Jordan) (This image was manipulated by combining two separate photos.)
Details
Download
Share
Students complete another successful summer intern program in AFRL
Ashley Wissel, Purdue University undergraduate student, displays her work performed over the summer at a poster session in the Air Force Research Laboratory Materials and Manufacturing Directorate attended by leadership, mentors and colleagues. (U.S. Air Force photo/Dave Dixon)
Details
Download
Share
AFRL team looks to solve fatigue issues for C-5 crew members
A lightweight and foldable seat is one of two initial prototype designs created by Air Force Research Laboratory researchers in an effort to implement a safer and less fatiguing way for Air Force crew members to perform flight duties. (U.S. Air Force photo by JD Bales)
Details
Download
Share
AFRL unveils “one-stop” technology licensing
The Air Force Research Laboratory is launching Express Licensing, a one-stop shopping approach that allows entrepreneurs to discover available AFRL-developed technologies and quickly and easily determine if a licensing opportunity fits their capabilities. Pictured here are voxelated liquid crystal elastomers, a shape-changeable soft material technology available on the Express Licensing website. (Courtesy photo)
Details
Download
Share
Air Force 2030 Science & Technology initiative
Maj. Gen. William Cooley, commander of the Air Force Research Laboratory, and Dr. Michael McRobbie, president, Indiana University, discuss partnership opportunities between higher education and the Air Force at the Air Force Science and Technology 2030 Forum held May 10 at Indiana University. (Indiana University photo/Chris Meyer)
Details
Download
Share
U.S. Air Force Science and Technology 2030 Forum
Maj. Brook Bentley, program manager with the Air Force Research Laboratory, introduces the technical themes of the U.S. Air Force Science and Technology 2030 Forum held May 10 at Indiana University. (Indiana University photo/Chris Meyer)
Details
Download
Share
AFRL viewing aircraft inspections through the lens of technology
AFRL Materials and Manufacturing Directorate researchers Capt. Sarah Wallentine and Alex Brown demonstrate the use of augmented reality for nondestructive inspections. AFRL researchers are developing a capability that uses the technology to display all necessary information for performing an aircraft inspection within the user's field of view, eliminating the need to view information from multiple sources simultaneously. (U.S. Air Force photo/David Dixon)
Details
Download
Share
AFRL researchers innovate, ‘sprint’ to create waterproof rescue duffel
The Air Force Research Laboratory’s Junior Force Warfighters Operations in RX (JFWORX) team used a process called the Design Sprint to create a waterproof medical bag for the National Guard’s 103rd Guardian Angel Personnel Recovery Unit. The Design Sprint, developed by Google, takes a unique approach to business problems by compressing the product development cycle into a five-day process that results in a realistic prototype to meet a business need. This image shows one of the two product prototypes created by the team during the innovation process. (U.S. Air Force Courtesy Photo)
Details
Download
Share
AFRL researchers innovate, ‘sprint’ to create waterproof rescue duffel
The Air Force Research Laboratory’s Junior Force Warfighters Operations in RX (JFWORX) team used a process called the Design Sprint to create a waterproof medical bag for the National Guard’s 103rd Guardian Angel Personnel Recovery Unit. The Design Sprint, developed by Google, takes a unique approach to business problems by compressing the product development cycle into a five-day process that results in a realistic prototype to meet a business need. This image shows one of the two product prototypes created by the team during the innovation process. (U.S. Air Force Courtesy Photo)
Details
Download
Share
AFRL researchers innovate, ‘sprint’ to create waterproof rescue duffel
U.S. Air Force Capt. Jason Goins leads the Air Force Research Laboratory’s Junior Force Warfighters Operations in RX (JFWORX) team during a Design Sprint to create a waterproof medical bag for the National Guard’s 103rd Guardian Angel Personnel Recovery Unit. The Design Sprint, developed by Google, takes a unique approach to business problems by compressing the product development cycle into a five-day process that results in a realistic prototype to meet a business need. (U.S. Air Force Courtesy Photo)
Details
Download
Share
Robotic wheelchair competition unleashes student creativity
Students participating in the Robotic Sentry portion of the 2017 AFRL Student Challenge prepare to demonstrate their robot on the obstacle course. This yearly AFRL-sponsored project enables college seniors to gain practical experience in aerospace engineering by taking on real-world Air Force needs. (Photo courtesy of Ohio Aerospace Institute)
Details
Download
Share
Robotic wheelchair competition unleashes student creativity
A student-built robot takes on the obstacle course as part of the final demonstration event of the 2017 AFRL Robotic Sentry Challenge. This project is one of many that make up the AFRL Student Challenge, which enables college seniors to gain practical experience in aerospace engineering by taking on real-world Air Force needs. (Photo courtesy of Ohio Aerospace Institute)
Details
Download
Share
Robotic wheelchair competition unleashes student creativity
The student team from Worcester Polytechnic Institute poses with a tracked all-terrain chair, donated by Action Trackchair, that they will use to build their prototype robotic sentry as part of the AFRL Student Challenge. (Photo courtesy of Worcester Polytechnic Institute)
Details
Download
Share
AFRL partners with entrepreneurs to light the way for the warfighter
AFRL Materials Engineer Dr. Larry Brott demonstrates the process through which he microencapsulates chemiluminescent materials for use in applications such as multi-use glow stick “crayons.” (U.S. Air Force Photo/Holly Jordan)
Details
Download
Share
AFRL partners with entrepreneurs to light the way for the warfighter
AFRL-developed microencapsulated chemiluminescent materials can be formed into large beads for a variety of potential “glow stick” applications. (U.S. Air Force Photo/Holly Jordan)
Details
Download
Share
AFRL partners with entrepreneurs to light the way for the warfighter
AFRL-developed microencapsulated chemiluminescent materials were recently licensed to Battle Sight Technologies LLC for the production of glowing “crayons” that can be created in many colors for different uses. (U.S. Air Force Photo/Holly Jordan)
Details
Download
Share
AFRL partners with entrepreneurs to light the way for the warfighter
The AFRL Materials and Manufacturing Directorate Technology Transfer office recently licensed in-house developed microencapsulated chemiluminescent materials to startup company Battle Sight Technologies LLC. These materials can be used in glow stick “crayons” to write messages or mark items in the field. (U.S. Air Force Photo/Holly Jordan)
Details
Download
Share
AFRL partners with entrepreneurs to light the way for the warfighter
AFRL-developed microencapsulated chemiluminescent materials can be used to create “crayons” to write glowing messages or mark items in the field. This technology was recently licensed to startup company Battle Sight Technologies LLC for commercial production. (U.S. Air Force Photo/Holly Jordan)
Details
Download
Share
AFRL licenses antibody breakthrough for humanitarian use
AFRL project researchers Dr. Joseph Slocik (left), Dr. Rajesh Naik, and Dr. Patrick Dennis review the recently-signed licensing agreement that grants locally-based innovators S.A.Wyze exclusive rights to use AFRL-developed Ultra-Stable Antibody Liquids technology for human diagnostic work. (U.S. Air Force Photo/Kristi Singh)
Details
Download
Share
AFRL, Harvard researchers invent new method of hybrid 3-D printing for flexible electronics
A technique called Hybrid 3D Printing, developed by AFRL researchers in collaboration with the Wyss Institute at Harvard University, uses additive manufacturing to integrate soft, conductive inks with material substrates to create stretchable electronic devices. To create these, a 3-D printer prints conductive traces of flexible, silver-infused thermoplastic polyurethane. Then, a pick-and-place method using empty printer nozzles and a vacuum system sets microcontroller chips and LED lights into the flexible substrate. (Courtesy photo/Harvard Wyss Institute)
Details
Download
Share
1
2
3
4
5
Go To Page
of 5
Go
3
4
5
Go To Page
of 5
Go