The highly automated and continuous pultrusion process offers several benefits over traditional manufacturing processes. Researchers led by Skolkovo Institute of Science and Technology explored the potential of pultrusion to produce shape memory polymer composites.
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Fabricating metal-organic frameworks in a glassy phase is a successful way to synthesize these materials for bulk production. However, some MOFs decompose before reaching the melting temperature and so cannot be turned into a glass. Researchers in Germany and the U.K. found a way to melt these unmeltable MOFs by adding ionic liquid to the compound.
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To date, there are few textbooks that cover the topic of ceramic processing well. A new wiki initiated by ACerS members Olivier Guillon and Wolfgang Rheinheimer provides a platform for practical articles to help anybody working on ceramics to set up their lab.
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SiC/SiC composites are one of the main ceramic matrix composites being investigated for aerospace applications. Researchers from Germany and China explored the potential of shaping such composites using the “gentle” machining process of plasma etching.
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Compared to other meats, fish remains a relatively underutilized waste source in rendering processes. An international team of researchers investigated the possibility of deriving calcium phosphate bioceramics from salmon fish bone wastes.
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Synthesizing multilayer borophene is difficult because of the tendency of boron atoms to cluster. Researchers at Northwestern and Rice Universities discovered they could synthesize bilayer borophene by growing it on a special silver substrate.
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In Colombia, industrial wastes such as rice husk and coal ashes are disposed of in uncontrolled landfills, generating high environmental impact. Researchers in Colombia and Spain explored turning these ashes into glass-ceramic materials as a way to keep them out of landfills.
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The September 2021 issue of the ACerS Bulletin—featuring processing of high-performance materials—is now available online. Plus—ACerS Awards and C&GM.
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Magnetite (Fe3O4) and maghemite (γ-Fe2O3) are two types of iron oxide known for their magnetic properties. A new open-access paper summarizes the main synthesis protocols for obtaining these magnetic nanoparticles.
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The epsilon phase of iron(III) oxide exhibits many desirable properties for application in 6G technology, but synthesizing the material is complex. Researchers in Russia refined a silica-based synthesis method that is reproducible, cheap, easily implemented, and only takes a day to perform.
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