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Laser sintering is a generative layer manufacturing technology. Any three-dimensional geometry can be built effectively and flexibly, without any tools or laborious milling path programming. During production, the 3D CAD model is sliced into layers. EOS's...
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Students of WKU's Department of Architectural and Manufacturing Sciences are training to work in management in the manufacturing business, and for their senior project are asked to come up with a simple task - design a product and build it. Working...
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When WKU decided to upgrade its manufacturing lab, they turned to FESTO, who had the combination of technical knowledge and experience they were looking for to complete their project, the primary hurdle being integration of newer mechatronic and computer...
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Ever wonder what goes into setting up a mechatronics lab at a university these days? This episode reveals the process that faculty and students at WKU's advanced manufacturing lab used to set up their system, from choosing the robotics to integrate...
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Engineering TV takes a look at Western Kentucky University's advanced manufacturing lab, recently integrated with new automation systems from FESTO. Once programmed, a robotic arm system from FESTO can transport material to a Haas mill, lathe and...
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Paul Manley, of L-3 Space & Navigation, discusses some of the most accurate gyros in the world that L-3 manufactures for use in satellite navigation: Fiber Optic Gyros (FOGs), Ring Laser Gyros (RLGs), and Star Sensors. In addition, the RIFCA (Redundant...
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Engineering TV concludes our inside look at the University of Michigan's HERCULES Petawatt laser. Dr. Victor Yanovsky elaborates on their amplification process, the compression of the output pulse using a 4-grating compressor, and the interaction...
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Dr. Victor Yanovsky takes us on an in-depth walk-through of the HERCULES Petawatt laser, starting with the short pulse oscillator on through the stretching of the energy pulse using their modified mirror-in-grating design. Ultrashort laser pulses are...
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Engineering TV visited The Center for Ultrafast Optical Science at the University of Michigan to take a closer look at HERCULES, a high-field petawatt class laser. The beam measures 20 billion trillion watts per square centimeter, contains 300 terawatts...
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The idea and deployment of TOF (time of flight) systems is not new - if you've ever been caught in a LIDAR speed trap this same technology was in use. Velodyne's unique contribution to the state-of-the art in sensing comes from its approach of...
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At Carnegie Mellon University, Professor Elias Towe's group pursues research in basic optical and quantum phenomena in materials for applications in novel photonic devices that enable a new generation of information processing systems for communication...
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MIRTHE is a National Science Foundation Engineering Research Center headquartered at Princeton University, with partners City College New York, Johns Hopkins University, Rice, Texas A&M, and the University of Maryland Baltimore County. The center...
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QC lasers are a rapidly evolving class of high-performamce, mid-infrared, semiconductor light sources. They offer considerable wavelength tunability, high output power, high-speed modulation capabilities and may be fabricated in several different materials...