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AFRL researcher named optical society fellow
Dr. Shekhar Guha, senior scientist, Materials and Manufacturing Directorate, Air Force Research Laboratory, will be formally named an OSA Fellow in a ceremony in San Jose, California, May 2017. Guha designs experiments incorporating laser beam propagation through linear and nonlinear media, which are useful for predicting experimental results. (U.S. Air Force photo by Donna Lindner/released).
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AFRL researcher named optical society fellow
Dr. Shekhar Guha, senior scientist, Materials and Manufacturing Directorate, Air Force Research Laboratory, will be formally named an OSA Fellow in a ceremony in San Jose, California, May 2017. Guha designs experiments incorporating laser beam propagation through linear and nonlinear media, which are useful for predicting experimental results. (U.S. Air Force photo by Donna Lindner/released).
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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)
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AFRL researcher achieves society honor
Dr. Sheldon (Lee) Semiatin, senior scientist, Materials and Manufacturing Directorate, Air Force Research Laboratory, uses a Gleeble machine for thermomechanical processing of aerospace alloys. This machine aids projects that require solid state joining of nickel-based superalloys.
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AFRL leader named ASM International Fellow
Dr. Roland Dutton, chief, Manufacturing and Industrial Technologies Division, Materials and Manufacturing Directorate, Air Force Research Laboratory, was named an ASM International Fellow at a ceremony in Salt Lake City, Utah, October 26. ASM is the world's largest association of metals-focused materials professionals. The fellow honor recognizes members for distinguished contributions in the field of materials science. (U.S. Air Force photo)
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AFRL program turns junior workforce into rapid innovators
1st Lt. Stuart Baker demonstrates the portability of the JFWORX-developed Roco Atlas Casualty Carrier. This strong and lightweight tactical ladder can also function as bridge between structures and as a stretcher to transport injured personnel. (U.S. Air Force photo/Holly Jordan)
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Metals Affordability Initiative Hub enhances data exchange for researchers, teams
Clare Paul, Lead for Applications and Analytics of the Air Force Research Laboratory, Materials and Manufacturing Directorate accesses the Metals Affordability Initiative hub. The hub is a collaborative platform that helps exchange information between materials suppliers and original equipment manufacturers (U.S. Air Force photo / Donna Lindner).
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Disrupting the research process: changing materials science with robotics, AI and autonomy
A materials researcher examines experimental data on the ARES artificial intelligence planner. The ARES Autonomous Research System, developed by the Air Force Research Laboratory, uses artificial intelligence to design, execute and analyze experiments at a faster pace than traditional scientific research methods. (Courtesy Photo)
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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)
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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)
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Flexible batteries: evolving energy for the ‘new’ reality
Ryan Kohlmeyer, a materials research scientist at Air Force Research Laboratory, subjects a flexible battery to mechanical stress testing. The batteries developed here have proven themselves to maintain uncompromised performance even after exposure to more than 250 rounds of extreme manipulations. (U.S. Air Force photo by Marisa Alia-Novobilski/released)
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Flexible batteries: evolving energy for the ‘new’ reality
A researcher at Air Force Research Laboratory demonstrates the ability of a flexible lithium-ion battery to conform under stress. The batteries developed here have proven themselves to maintain steady voltage even after exposure to more than 250 rounds of extreme mechanical manipulations. (U.S. Air Force photo by Marisa Alia-Novobilski/released)
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Disrupting the research process: changing materials science with robotics, AI and autonomy
The Air Force Research Laboratory’s Autonomous Research System, or ARES, uses artificial intelligence to design, execute and analyze experiments at a pace much faster than traditional scientific research methods. This robotic research machine is revolutionizing materials science research and demonstrates the benefits of human-machine interaction for rapid advancement and development of knowledge today. (U.S. Air Force photo/Marisa Novobilski).
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Disrupting the research process: changing materials science with robotics, AI and autonomy
Dr. Benji Maruyama, a senior materials research engineer in the Functional Materials Division, Materials and Manufacturing Directorate, Air Force Research Laboratory, displays a model of a carbon nanotube structure. Carbon nanotubes are of great interest to materials scientists due to their strong, light-weight structure and ability to conduct heat and electricity better than many other materials. These nanotubes can be used in a number of different applications, from airplane wings to computer fiber, dental implants and even for oil spill clean-up. (U.S. Air Force photo/Marisa Novobilski).
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Air Mobility Command logistics leadership visits RX
WRIGHT-PATTERSON AIR FORCE BASE, Ohio – Brig. Gen. Stacey T. Hawkins, Director, Logistcs, Engineering and Force Protection, Air Mobility Command (right) and Dr. Donna C. Senft, Chief Scientist, Air Mobility Command, along with core members of the AMC aircraft maintenance team visited the Materials and Manufacturing Directorate, Air Force Research Laboratory, to gain in-depth knowledge of additive manufacturing capabilities and technologies, Aug. 26. The visit included a directorate overview, discussions on additive manufacturing applications and visits to multiple research laboratories, highlighting 3-D printing capabilities for metals, polymer-based materials and functional material applications. AMC is exploring the possibilities of using additive manufacturing for replacement parts for aircraft during the life-cycle maintenance process. (Air Force photo by Marisa Novobilski/released)
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Air Mobility Command logistics leadership visits RX
WRIGHT-PATTERSON AIR FORCE BASE, Ohio – Brig. Gen. Stacey T. Hawkins, Director, Logistcs, Engineering and Force Protection, Air Mobility Command (left) and Dr. Donna C. Senft, Chief Scientist, Air Mobility Command, along with core members of the aircraft maintenance team visited the Materials and Manufacturing Directorate, Air Force Research Laboratory, to gain in-depth knowledge of additive manufacturing capabilities and technologies, Aug. 26. The visit included a directorate overview, discussions on additive manufacturing applications and visits to multiple research laboratories, highlighting 3-D printing capabilities for metals, polymer-based materials and functional material applications. AMC is exploring the possibilities of using additive manufacturing as a cost-saving option for replacement parts for aircraft during the life-cycle maintenance process. (Air Force photo by Marisa Novobilski/released)
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Air Mobility Command logistics leadership visits RX
WRIGHT-PATTERSON AIR FORCE BASE, Ohio – Brig. Gen. Stacey T. Hawkins, Director, Logistcs, Engineering and Force Protection, Air Mobility Command (center) learns more about additive manufacturing capabilities for functional materials during a visit to the Materials and Manufacturing Directorate, Air Force Research Laboratory, Aug. 26. The laboratory visit was part of a larger tour of AFRL facilities to gain in-depth knowledge of current capabilities for additive manufacturing technology. The visit included a directorate overview, discussions on additive manufacturing applications and visits to multiple research laboratories, highlighting 3-D printing capabilities for metals, polymer-based materials and functional material applications. AMC is exploring the possibilities of using additive manufacturing for replacement parts for aircraft during the life-cycle maintenance process. (Air Force photo by Marisa Novobilski/released)
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Materials and Manufacturing Directorate hosts DARPA leadership
Dr. Stephanie Tompkins, Director, Defense Sciences Office, Defense Advanced Research Projects Agency, discusses current research with local scientists during a visit to the Materials and Manufacturing Directorate, Air Force Research Laboratory, Aug. 11. Tompkins viewed current research trends and activity in Nano tomography, materials characterization, additive manufacturing and the benefits of real-time analytics in development of technology for today’s warfighter. As the director of DSO, Tompkins maintains a strong interest in cutting-edge research that can accelerate the development of new technologies for national security. (U.S. Air Force Photo / Marisa Novobilski)
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Materials and Manufacturing Directorate hosts DARPA leadership
Dr. Stephanie Tompkins, Director, Defense Sciences Office, Defense Advanced Research Projects Agency, visited the Materials and Manufacturing Directorate, Air Force Research Laboratory, Aug. 11 to view some of the on-going research throughout AFRL. Tompkins was briefed on current research trends and activity in Nano tomography, materials characterization, additive manufacturing and the benefits of real-time analytics in development of technology for today’s warfighter. As the director of DSO, Tompkins maintains a strong interest in cutting-edge research that can accelerate the development of new technologies for national security. Pictured L-R: Dr. Stephanie Tompkins; Dr. Morley Stone, AFRL Chief Technology Officer; Dr. Richard Vaia, Technology Director, Functional Materials Division; and Dr. Stephan Russ, Technical Director, Structural Materials Division. (U.S. Air Force Photo / Marisa Novobilski)
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Materials and Manufacturing Directorate hosts DARPA leadership
Dr. Lawrence Drummy, a material scientist is the Functional Materials Division, Materials and Manufacturing Directorate, Air Force Research Lab (left) provides an overview of current research in Nano Tomography for Dr. Stephanie Tompkins, Director, Defense Sciences Office, Defense Advanced Research Projects Agency, during a visit to AFRL Materials and Manufacturing Directorate, Aug. 11. During her visit, Tompkins was briefed on current research trends and activity in Nano tomography, materials characterization, additive manufacturing and the benefits of real-time analytics in development of technology for today’s warfighter. As the director of DSO, Tompkins maintains a strong interest in cutting-edge research that can accelerate the development of new technologies for national security. (U.S. Air Force Photo / Marisa Novobilski)
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