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AFRL demos advanced robotics for aerospace manufacturing
The Air Force Research Laboratory recently demonstrated the advanced capabilities of the Advanced Automation for Agile Aerospace Applications (A5) Robotic System at the Southwest Research Institute in San Antonio, Texas, for government and industry representatives. The 22,000 pound A5 robotic system is the first multi-purpose robot designed for use on the aerospace factory floor capable of using real-time sensor feedback to conduct work in a localized environment. (U.S. Air Force courtesy photo/released)
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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)
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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)
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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)
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Metals Affordability Initiative brings together Air Force and industry for greater innovation, agility
Through a Metals Affordability Initiative project, AFRL and industry partners study advanced techniques to reduce cost and lead time for the production of aerospace metallic components. The Air Force Research Laboratory-managed MAI effort helps ensure the advancement of metals technologies for the betterment of the both the warfighter and participating partners. (Photo courtesy of The Boeing Company)
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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)
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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)
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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)
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