Look for intense collaborative research efforts over the next 10 years to improve additive manufacturing technologies for use in high-tech aerospace applications. The cost of aerospace components is boosted dramatically due to the amount of material beyond the finished geometry that must be removed during manufacturing-often 90 percent or more, according to Chris English, an engineer with GE Aviation. As a result there is increased interest in the potential to use additive manufacturing technologies that were originally developed for rapid prototyping applications.
One example is a project at the George W. Woodruff School of Mechanical Engineering at the Georgia Institute of Technology. Researchers there are looking at the potential to produce net shape low-density cellular metal structures from layer-based additive manufacturing of metal-oxide ceramic slurry followed by post-processing in a reducing atmosphere. A ceramic suspension would be direct printed in a research investigation. Many issues remain, however, with existing additive manufacturing systems including materials available, poor surface finish, difficulties in removing support systems, and inability to make large parts.
A make-your-own Star Wars Sith Lightsaber hilt is heftier and better-looking than most others out there, according to its maker, Sean Charlesworth. You can 3D print it from free source files, and there's even a hardware kit available -- not free -- so you can build one just in time for Halloween.
Some next-generation bio-based materials are superior in performance to their petro-based counterparts, but also face some commercial challenges. This is especially true of certain biopolymers, adhesives, coatings, and advanced materials.
Cars and other vehicles, as well as electronics and medical devices, continue to lead the use cases for the new plastics products we've been seeing, as engineers design products for tougher environments.
LeMond Composites, founded by three-time Tour de France cycling champion Greg LeMond, is the first to license a new carbon fiber production method invented by Oak Ridge National Laboratory (ORNL) that's faster, cheaper, and greener.
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