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Air Force Bioenvironmental Engineers bring advanced exposure surveillance to the front lines Air Force Bioenvironmental Engineers bring advanced exposure surveillance to the front lines
Modern battlefields have many sources of potentially harmful airborne substances, but that is not the only place that Airmen can be exposed to harmful environmental factors. Air Force bioenvironmental engineers are developing technology to track, catalogue, and provide useful data about environmental exposures that will help identify battlefield threats in real time and inform Airmen of the everyday exposures that affect their health.
0 10/30
2017
Biological Science presentation for ARAP Tri-Service effort leverages synthetic biology expertise to address future warfighter needs
WRIGHT-PATTERSON AIR FORCE BASE, Ohio --  Taking advantage of Department of Defense research laboratory expertise in chemistry, biology, computer science and material science and engineering, a collaborative, $45 million tri-service effort is changing the way the DoD exploits biological systems to meet the unique needs and challenges of defense
0 9/27
2017
3-D rendering of a Twistron Yarn AFRL researchers ‘twist’ yarns for electrical energy, power
WRIGHT-PATTERSON AIR FORCE BASE, Ohio – Scientists at the Air Force Research Laboratory have ‘twisted’ upon a new way to harvest mechanical energy using ‘yarns’ that weigh less than a common housefly. Carbon nanotube-based “twistron” yarns, developed in collaboration with researchers from the AFRL’s Materials and Manufacturing Directorate along
0 9/11
2017
Liquid Metal Alloys briefing Linking form with function: AFRL’s flex team drives future tech capabilities for the warfighter
WRIGHT-PATTERSON AIR FORCE BASE, Ohio -- Led by Dr. Benji Maruyama and comprised of a cadre of energetic, innovative, high-performing scientists and engineers, the members of the Air Force Research Laboratory’s Flexible Materials and Processing Team take comprehension of soft matter to a new level.“We take a basic understanding of soft, flexible
0 8/09
2017
Dr. Sheldon "Lee" Semiatin official photo AFRL senior scientist to receive prestigious materials science and engineering achievement award
WRIGHT-PATTERSON AIR FORCE BASE, Ohio -- A senior scientist at the Air Force Research Laboratory’s Materials and Manufacturing Directorate will receive the prestigious 2018 ASM International Albert Sauver Achievement Award in fall, 2018.Dr. Sheldon “Lee” Semiatin, the Air Force Senior Scientist for Materials Processing and Processing Science, will
0 8/08
2017
Maj. Gen. William T. Cooley, commander of the Air Force
Research Laboratory, welcomes  Secretary of the Air Force Heather A. Wilson to the Air Force exhibit area during the
2nd biennial DoD Lab Day at the Pentagon center courtyard May 18, 2017. (U.S. Air Force photo/Mikee Huber)
AFRL showcases game-changing technologies at DOD Lab Day
Scientists and engineers from the Air Force Research Laboratory presented 16 technology research projects in various stages of maturity during the second biennial Department of Defense Lab Day May 18, 2017, in the Pentagon center courtyard.
0 5/19
2017
Researchers Catxere Casacio, Waleed Muhammad, Warwick Bowen, Lars Madsen, and Nicholas Mauranyapin perform quantum optics experiments at the Laboratory for Translational Quantum Science, in the Australian Centre for Engineered Quantum Systems, University of Queensland on November 30, 2016. The experiments are being performed broadly to bring to bear techniques from quantum optics on the biological sciences and microscopy, with the goal of enhancing the resolution and speed of biological imaging and sensing.   (Courtesy photo / Erick Romero) AFOSR and NASA Glenn Research Center contribute to University of Queensland’s Australian Research Council (ARC) Centre of Excellence
RESTON, Virginia --  The Air Force Office of Scientific Research (AFOSR) and the National Aeronautics and Space Administration (NASA) Glenn Research Center significantly contributed to the University of Queensland’s recent success to host a prestigious Australian Research Council (ARC) Centre of Excellence. The AUD $33.7 million ARC Centre of
0 4/05
2017
Phyllis Bolds, a researcher at the Radar Branch, Air Research Lab, analyzes radar signal data on fighter planes as it travels through fuselage in 1955. (Courtesy photo / Adrienne Ephrem) Wright-Patterson’s women in STEM are not hidden figures
Adrienne Ephrem, integration manager with the 711th Human Performance Wing, represents the third generation of female engineers in her family. It was her grandmother, Phyllis Bolds, who started this family dynasty of scientists and mathematicians, working as a physicist in the radar branch of the electronics laboratory here at Wright-Patterson from 1955-1957, and then later in 1957, transferring to their flight dynamics laboratory, working there until her retirement in 1987. Bolds' daughter (and Ephrem's aunt), Karen Beason, is also a a materials scientist, working as an environmental protection specialist in the 88th Civil Engineering Group.
0 3/10
2017
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) Digital Thread laces decision-making, data for Air Force acquisition
WRIGHT-PATTERSON AIR FORCE BASE, Ohio --  As information technology has advanced and improved over the years, modeling and simulation tools, sophisticated analytical capabilities and data analytics have increased in importance throughout a product’s life cycle. For the Air Force, a concept born in the lab is set to change the way weapon systems are
0 2/17
2017
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)

Researchers turn to liquid metals for agile electronics
WRIGHT-PATTERSON AIR FORCE BASE, Ohio –  Self-healing electronics, antennas that can change shape and function with the flick of a switch and clothing woven with conductive threads able to electrically connect devices may seem like science fiction fodder. But, for scientists at the Air Force Research Laboratory, these concepts are much closer to
0 2/08
2017
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