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AFRL develops algorithm, flexible device for hands-free ultrasound
Conventional ultrasound hand-held rigid array of transducers. (Courtesy graphic)
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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)
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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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200605-F-EK602-001.JPG
The Flexible Arduino Compatible Board was initially sponsored by the Air Force Research Laboratory and manufactured at NextFlex. The goal was to develop a flexible copy of the Arduino Mini Microcontroller board to validate ability to mass produce printed hybrid electronics and create a platform for future applications. (Courtesy photo)
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AFRL matching tech to needs with international partners
Representatives from the Air Force Research Laboratory recently traveled to Israel to visit universities, researchers, and technology entrepreneurs, sharing AFRL research goals and advancing current and future collaborative opportunities. (U.S. Air Force Photo)
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AFRL matching tech to needs with international partners
Representatives from the Air Force Research Laboratory recently traveled to Israel to visit universities, researchers, and technology entrepreneurs, sharing AFRL research goals and advancing current and future collaborative opportunities. (U.S. Air Force Photo)
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Air Force receives FLC Excellence in Technology Transfer awards
From left to right: John Dement (FLC President), Abby Boggs (Air Force Technology Transfer Specialist), Kristen Schario (Aerospace Systems Directorate Technology Transfer Manager), Adam Brand (Aerospace Systems scientist and inventor), and Sean Patton (TechLink Technology Transfer Specialist). (Courtesy photo/FLC)
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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)
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Silicon Oxycarbide (SiOC) testing
A sample of additively manufactured silicon oxycarbide (SiOC) material is tested at Arnold Air Force Base. The testing was conducted as part of a Cooperative Research and Development – Material Transfer Agreement between the Air Force Research Laboratory Aerospace Systems Directorate and HRL Laboratories. (Courtesy photo)
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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)
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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)
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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)
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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)
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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)
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A green alternative to hydrazine
A sample of AF-M315E, a green alternative to hydrazine that was developed by the AFRL Aerospace Systems Directorate Propulsion Branch. AFRL recently licensed the propellant to Digital Solid State Propulsion for commercialization. (Air Force photo.)
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A green alternative to hydrazine
Milton McKay, a now-retired member of the AFRL Aerospace Systems Directorate Propellants Branch handles a sample of AF-M315E, a green alternative to hydrazine. AFRL recently licensed the propellant to Digital Solid State Propulsion for commercialization. (Courtesy photo)
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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)
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711th Human Performance Wing hosts Bench to Business event
Dr. Rajesh Naik, 711th Human Performance Wing Chief Scientist, discusses the importance of technology transfer at the Bench to Business event at the downtown Wright Brothers Institute location in Dayton. The event was a collaboration between the 711th and the Wright Brothers Institute. (U.S. Air Force photo/Abby Boggs.)
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AFRL developing AgilePod ‘family’ to augment sensing grid
The AgilePod, the first physical system to be trademarked by the Air Force, is a multi-intelligence, open architecture, flight-line reconfigurable pod designed for the intelligence community. A new effort to develop a suite of platform-agnostic AgilePods in various sizes is currently in progress, teaming AFRL with industry partners. (U.S. Air Force photo/David Dixon)
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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)
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