Researchers from the United States and Europe developed a numerical model for manufacturing perfume bottles that could cut the cost and time associated with designing new glass containers.
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Researchers trained an artificial neural network to predict glass transition temperatures of never-before-made glass compositions. The software will soon be freely available as a web application.
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Did you ever wish you could fly your own small plane without getting your pilot’s license? Watch today’s video to see how close the future really is!
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Researchers at MIT have fabricated small flexible magnetic structures using a 3-D printer and ink fused with magnetic particles. The structures could be used to remotely control biomedical devices for drug delivery or for pumping blood, among other functions.
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3-D printing typically involves only one material. Researchers have now developed a way to print multiple materials in one process. This method could eventually replace welding and other materials joining technologies.
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Researchers have devised a simple electronic textile that uses carbon nanotubes to provide an electrical charge. The device enables users to control a computer or small appliance by swiping a finger over the fabric.
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Researchers have developed a technology to power tiny implantable devices that could be used to monitor medical conditions or treat diseases from inside the human body. The technology uses radio waves, rather than batteries, to power and communicate with the devices.
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Researchers have demonstrated that flash sintered yttria-stabilized zirconia (YSZ) acquires metal-like plasticity at room temperature. This discovery could prove to be useful in using YSZ as a thermal barrier coating for aircraft engine blades.
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The U.S. Department of Energy recently earmarked approximately $106 million for two new energy projects: High-temperature concentrating solar power technology, and Small business research and development grants.
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Researchers have developed a groundbreaking proof-of-concept battery that interweaves the anode, cathode, and separator in a self-assembling structure. Their work could change the way future batteries are designed for more efficient charging.
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