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Jet engine inventor’s son visits AFRL: Father’s legacy continues to thrive
Mr. Ian Whittle signs a photo matt during a tour of Air Force Research Laboratory at Wright-Patterson Air Force Base, Ohio, Oct. 31, 2017. Whittle is the son of the late Sir Frank Whittle who is credited for inventing the gas turbine engine effectively launching aircraft propulsion into the jet age. (U.S. Air Force photo / Lisa Donauer) (U.S. Air Force photo / Lisa Donauer)
Jet engine inventor’s son visits AFRL: Father’s legacy continues to thrive
Mr. Fred Eisert, Air Force Research Laboratory, chief of fan and compressor experimental branch, explains his branch's mission to Mr. Ian Whittle during a tour of the branch facilities on Wright-Patterson Air Force Base, Ohio, Oct. 31, 2017. Whittle is the son of the late Sir Frank Whittle who is credited for inventing the gas turbine engine effectively launching aircraft propulsion into the jet age. (U.S. Air Force photo / Wesley Farnsworth)
Jet engine inventor’s son visits AFRL: Father’s legacy continues to thrive
Mr. Fred Eisert, Air Force Research Laboratory, chief of fan and compressor experimental branch, explains his branch's mission to Mr. Ian Whittle during a tour of the branch facilities on Wright-Patterson Air Force Base, Ohio, Oct. 31, 2017. Whittle is the son of the late Sir Frank Whittle who is credited for inventing the gas turbine engine effectively launching aircraft propulsion into the jet age. (U.S. Air Force photo / Wesley Farnsworth)
Job shadow program inspires next generation of innovators
Segrid Harris, (standing top left) Air Force Research Laboratory Materials Integrity Branch Chief invited invited into her labs area junior and senior high school students who were attending a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
Job shadow program inspires next generation of innovators
Area high school students Alexa Gebhardt (center) and Tristan Gilreath (right) learned about the breaking point of certain materials from members of the Structural Failure Analysis team at the Air Force Research Laboratory Materials Integrity Branch during a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
Job shadow program inspires next generation of innovators
Area high school student Rosemary Wildermuth learned how to build an electrical connector called a cannon plug while visiting the Electrical Failure Analysis team at the Air Force Research Laboratory Materials Integrity Branch during a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
Job shadow program inspires next generation of innovators
Area high school students (from left) Rosemary Wildermuth and Darryl Bronner learned about electrical connectors from Dan O'Brien, a technician on loan from the University of Dayton Research Institute to the Electrical Failure Analysis team at the Air Force Research Laboratory Materials Integrity Branch during a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
Job shadow program inspires next generation of innovators
Area junior and senior high school students attended a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
Job shadow program inspires next generation of innovators
Area junior and senior high school students attended a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
Job shadow program inspires next generation of innovators
Area junior and senior high school students attended a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
Job shadow program inspires next generation of innovators
Dr. Jeffrey Calcaterra (right) Structural Failure Analysis team lead for Air Force Research Laboratory Materials Integrity Branch explains non destructive inspection processes to (from left) Tristan Gilreath and Alexa Gebhardt, area high school students who were attending a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
Job shadow program inspires next generation of innovators
Members of the Structural Failure Analysis team for Air Force Research Laboratory Materials Integrity Branch explain non destructive inspection processes to (from left center) Tristan Gilreath and Alexa Gebhardt, area high school students who were attending a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
Job shadow program inspires next generation of innovators
Area high school student Rosemary Wildermuth learned how to build an electrical connector called a cannon plug while visiting the Electrical Failure Analysis team at the Air Force Research Laboratory Materials Integrity Branch during a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
Job shadow program inspires next generation of innovators
Area junior and senior high school students attended a job Shadow Day at Wright-Patterson Air Force Base, Ohio, Oct. 27, 2017. The bi-annual event, put on by the Air Force Research Laboratory's Educational Outreach Office, is designed for students to experience on the job real-life experiences, and allow them to explore a lot of potential career field opportunities. (U.S. Air Force photo/Jim Varhegyi)
AFRL 2017 Science and Engineering Early Career Award Recipients
Recipients of the Air Force Research Laboratory Science and Engineering Early Career Award pose with Maj. Gen. William Cooley, AFRL commander, and Dr. Morley O. Stone, AFRL chief technology officer, during the AFRL Fellows and Early Career Awards Ceremony Oct. 26, 2017, at the National Museum of the United States Air Force, Wright-Patterson Air Force Base, Ohio. The award recognizes young scientists and engineers for exceptional leadership potential and mission contributions early in their research careers. (U.S. Air Force photo/R.J. Oriez)
Materials and Manufacturing Directorate researchers win Affiliate Societies Council awards
Dr. Eric Lindgren,(left) Dr. Joy Haley and Doug Carter will be recognized at an upcoming ASC awards banquet in October. (U.S. Air Force photo / by Donna Lindner)
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)
AFRL, Harvard researchers invent new method of hybrid 3-D printing for flexible electronics
The Air Force acronym pictured here was created using a technique called Hybrid 3-D Printing, developed by Air Force Research Laboratory scientists in collaboration with the Wyss Institute at Harvard University. Hybrid 3-D printing uses additive manufacturing to integrate soft, conductive inks with material substrates to create stretchable electronic devices. (U.S. Air Force courtesy photo)
AFRL, Harvard researchers invent new method of hybrid 3-D printing for flexible electronics
A technique called Hybrid 3-D 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. A potential application is to create sensors to enable better human performance monitoring. (Courtesy photo/Harvard Wyss Institute)
Tech Warrior 2017
FAIRBORN, Ohio – Kevin McAllister, a civilian with the Air Force Office of Scientific Research, fires an M-240 machine gun from the turret of an HUMVEE during a combat scenario at the Tech Warrior 2017 exercise at the National Center for Medical Readiness here Sept. 26, 2017. The annual exercise gives scientists and technicians an insight into what conditions their technology may encounter out in the field as well as letting warriors give real-time feedback on how well a new technology performs. (U.S. Air Force photo/R.J. Oriez)