????-???????? ????????????????: ?????? ?????????????? ?????? ???? ?????????????? ?????? ?????????????? Explore a cutting-edge method for developing new alloys that is faster, simpler, and requires significantly less material than conventional techniques. This in-situ alloying approach enables researchers to create high-performance alloys in just 40 minutes, making alloy research more time and cost-effective. Key Advantages · High-Performance Alloy Production: Capable of producing various alloy forms, including High Entropy Alloys (HEA), Metal Matrix Composites (MMC), Functionally Graded Materials (FGM), and bi-metallic joints by mixing up to six different materials. · Optimized for Powder Metallurgy Research: Features an accurate and stable powder feeder and easy element change, maximizing flexibility in experimental design. · Fast Alloy Development: Uses minimal material to achieve maximum efficiency, reducing research time significantly. For more information, visit the MX-Lab Product Page. https://lnkd.in/gmdayQnq Many research institutes worldwide are already using this technology for diverse studies. Explore Research Case Studies. https://lnkd.in/gn_FBW_z If you want to check out some sample pieces and Mx-Lab up close, feel free to drop by our showroom in #Chicago #InSituAlloying #NewAlloys #PowderMetallurgy #HighEntropyAlloys #MetalMatrixComposites #FunctionallyGradedMaterials #BiMetallicJoint #RapidAlloy #AlloyResearch #HEA #MMC #FGM #AdvancedMaterials #DED
??????-???????? ????????????????: ?????? ?????????????? ?????? ???? ?????????????? ?????? ?????????????? Explore a cutting-edge method for developing new alloys that is faster, simpler, and requires significantly less material than conventional techniques. This in-situ alloying approach enables researchers to create high-performance alloys in just 40 minutes, making alloy research more time and cost-effective. Key Advantages · High-Performance Alloy Production: Capable of producing various alloy forms, including High Entropy Alloys (HEA), Metal Matrix Composites (MMC), Functionally Graded Materials (FGM), and bi-metallic joints by mixing up to six different materials. · Optimized for Powder Metallurgy Research: Features an accurate and stable powder feeder and easy element change, maximizing flexibility in experimental design. · Fast Alloy Development: Uses minimal material to achieve maximum efficiency, reducing research time significantly. For more information, visit the MX-Lab Product Page. https://lnkd.in/gmdayQnq Many research institutes worldwide are already using this technology for diverse studies. Explore Research Case Studies. https://lnkd.in/gn_FBW_z #InSituAlloying #NewAlloys #PowderMetallurgy #HighEntropyAlloys #MetalMatrixComposites #FunctionallyGradedMaterials #BiMetallicJoint #RapidAlloy #AlloyResearch #HEA #MMC #FGM #AdvancedMaterials