[{"data":1,"prerenderedAt":3711},["ShallowReactive",2],{"labs-page-en":3,"all-equipments":21,"labs-activities":930,"research-chairs":3532},{"id":4,"title":5,"body":6,"description":13,"extension":14,"meta":15,"navigation":16,"path":17,"seo":18,"stem":19,"__hash__":20},"content\u002Flaboratories-research.md","State-of-the-Art Laboratories — Direct Student Access, No Extra Fees",{"type":7,"value":8,"toc":9},"minimark",[],{"title":10,"searchDepth":11,"depth":11,"links":12},"",2,[],"MSI students have first-hand access to one of the best materials characterization facilities in Southern Vietnam — SEM, XRD, TGA\u002FDSC and more — from the very first semester, at no additional cost. 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Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":32},[],"General Laboratory Equipment","Provides high-precision weight measurements of chemical substances and samples up to sub-milligram accuracy.",[36],"\u002Fimages\u002Flabs\u002Fanalytical-balance\u002FAnalytical Balance.jpg",[38],{"title":39,"url":17,"description":40},"VGU Laboratories Overview","Detailed overview of all equipment available in the VGU high-tech research facility",{},"\u002F_equipments\u002Fanalytical-balance",[44],{"title":45,"url":46},"Equipment Operating Procedure","\u002FDocuments\u002FMODULE CATALOGUE MSI.pdf","Room 105 - Advanced Materials Lab",{"description":34},"_equipments\u002Fanalytical-balance","lge9AKO4jorS22COjWuAfQkRb1qrYTdNsU8vGyww65M",{"id":52,"title":53,"body":54,"category":61,"description":62,"extension":14,"images":63,"links":65,"meta":67,"name":53,"navigation":16,"path":68,"pdfs":69,"room":47,"seo":71,"stem":72,"__hash__":73},"equipments\u002F_equipments\u002Fautomated-material-microscope.md","Automated Material Microscope",{"type":7,"value":55,"toc":59},[56],[28,57,58],{},"The Automated Material Microscope is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":60},[],"Microscopy & Imaging","Enables advanced optical imaging and automated analysis of microstructures, grain sizes, and phase distributions in materials.",[64],"\u002Fimages\u002Flabs\u002Fautomated-material-microscope\u002FAutomated Material Microscope.jpg",[66],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fautomated-material-microscope",[70],{"title":45,"url":46},{"description":62},"_equipments\u002Fautomated-material-microscope","SWpVljeJ8Pk4zXbiAfZ8e9mvtZ0-ZZzKRHrGfQhgl9w",{"id":75,"title":76,"body":77,"category":33,"description":84,"extension":14,"images":85,"links":87,"meta":89,"name":76,"navigation":16,"path":90,"pdfs":91,"room":47,"seo":93,"stem":94,"__hash__":95},"equipments\u002F_equipments\u002Fcleanroom-facility.md","Cleanroom Facility",{"type":7,"value":78,"toc":82},[79],[28,80,81],{},"The Cleanroom Facility is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":83},[],"A controlled environment with low levels of pollutants, dust, and microbes, essential for microfluidic and nanolithographic processing.",[86],"\u002Fimages\u002Flabs\u002Fcleanroom-facility\u002FCleanroom.jpg",[88],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fcleanroom-facility",[92],{"title":45,"url":46},{"description":84},"_equipments\u002Fcleanroom-facility","2ESpeMqvJgoMs9V0yhbWQ9T0RhC5Y1CXBUdoHyz3AEo",{"id":97,"title":98,"body":99,"category":33,"description":106,"extension":14,"images":107,"links":109,"meta":111,"name":98,"navigation":16,"path":112,"pdfs":113,"room":47,"seo":115,"stem":116,"__hash__":117},"equipments\u002F_equipments\u002Fconvection-oven.md","Convection Oven",{"type":7,"value":100,"toc":104},[101],[28,102,103],{},"The Convection Oven is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":105},[],"Used for precise drying, curing, and thermal treatment of polymeric, ceramic, and composite samples.",[108],"\u002Fimages\u002Flabs\u002Fconvection-oven\u002FConvection Oven.jpg",[110],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fconvection-oven",[114],{"title":45,"url":46},{"description":106},"_equipments\u002Fconvection-oven","qqD3fASgWa-hHqenXMcrvaPL6yIw8aaGwkp2rqj_6lI",{"id":119,"title":120,"body":121,"category":33,"description":128,"extension":14,"images":129,"links":131,"meta":133,"name":120,"navigation":16,"path":134,"pdfs":135,"room":47,"seo":137,"stem":138,"__hash__":139},"equipments\u002F_equipments\u002Fdeionized-water-purifier.md","Deionized Water Purifier",{"type":7,"value":122,"toc":126},[123],[28,124,125],{},"The Deionized Water Purifier is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":127},[],"Standard purification unit to filter ions and particulates, supplying general deionized water for daily laboratory tasks.",[130],"\u002Fimages\u002Flabs\u002Fdeionized-water-purifier\u002Fwater purifier.jpg",[132],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fdeionized-water-purifier",[136],{"title":45,"url":46},{"description":128},"_equipments\u002Fdeionized-water-purifier","7kK9vZyU39FOBivrfhJnaOR3FQL3vY-8wfc90LqciY4",{"id":141,"title":142,"body":143,"category":150,"description":151,"extension":14,"images":152,"links":154,"meta":156,"name":157,"navigation":16,"path":158,"pdfs":159,"room":47,"seo":161,"stem":162,"__hash__":163},"equipments\u002F_equipments\u002Fdifferential-scanning-calorimeter-dsc.md","Differential Scanning Calorimeter Dsc",{"type":7,"value":144,"toc":148},[145],[28,146,147],{},"The Differential Scanning Calorimeter (DSC) is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":149},[],"Thermal Analysis","Measures temperatures and heat flows associated with thermal transitions in materials as a function of time and temperature.",[153],"\u002Fimages\u002Flabs\u002Fdifferential-scanning-calorimeter-dsc\u002FDifferential Scanning Calorimeter (DSC).jpg",[155],{"title":39,"url":17,"description":40},{},"Differential Scanning Calorimeter (DSC)","\u002F_equipments\u002Fdifferential-scanning-calorimeter-dsc",[160],{"title":45,"url":46},{"description":151},"_equipments\u002Fdifferential-scanning-calorimeter-dsc","ILrDbIlx-49mFqlGr-lNi8fgAt_DtA7Gf8BJDwgenr4",{"id":165,"title":166,"body":167,"category":174,"description":175,"extension":14,"images":176,"links":178,"meta":180,"name":181,"navigation":16,"path":182,"pdfs":183,"room":47,"seo":185,"stem":186,"__hash__":187},"equipments\u002F_equipments\u002Fe-beam-evaporator.md","E Beam Evaporator",{"type":7,"value":168,"toc":172},[169],[28,170,171],{},"The E-beam Evaporator is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":173},[],"Synthesis & Processing","Deposits high-purity thin films of metals, oxides, and semiconductors on substrates using an electron beam source.",[177],"\u002Fimages\u002Flabs\u002Fe-beam-evaporator\u002FE-beam Evaporator.jpg",[179],{"title":39,"url":17,"description":40},{},"E-beam Evaporator","\u002F_equipments\u002Fe-beam-evaporator",[184],{"title":45,"url":46},{"description":175},"_equipments\u002Fe-beam-evaporator","LgmscEkQ6a3xfB01VFsgTzw9sjlPnj3MioaCbFPFveY",{"id":189,"title":190,"body":191,"category":33,"description":198,"extension":14,"images":199,"links":201,"meta":203,"name":190,"navigation":16,"path":204,"pdfs":205,"room":47,"seo":207,"stem":208,"__hash__":209},"equipments\u002F_equipments\u002Fenvironmental-chamber.md","Environmental Chamber",{"type":7,"value":192,"toc":196},[193],[28,194,195],{},"The Environmental Chamber is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":197},[],"Simulates controlled conditions of temperature and relative humidity to test the environmental durability of materials.",[200],"\u002Fimages\u002Flabs\u002Fenvironmental-chamber\u002Fenvironment chamber.jpg",[202],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fenvironmental-chamber",[206],{"title":45,"url":46},{"description":198},"_equipments\u002Fenvironmental-chamber","PeHaxELEGbx1veMTFW_76hZf6ebcBHDJ5Eflpyv9GLU",{"id":211,"title":212,"body":213,"category":220,"description":221,"extension":14,"images":222,"links":224,"meta":226,"name":212,"navigation":16,"path":227,"pdfs":228,"room":47,"seo":230,"stem":231,"__hash__":232},"equipments\u002F_equipments\u002Fflammable-storage-cabinets.md","Flammable Storage Cabinets",{"type":7,"value":214,"toc":218},[215],[28,216,217],{},"The Flammable Storage Cabinets is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":219},[],"Safety & Storage","Provides safe storage for flammable liquids and hazardous chemicals in compliance with laboratory safety regulations.",[223],"\u002Fimages\u002Flabs\u002Fflammable-storage-cabinets\u002FFlammable Storage Cabinets.jpg",[225],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fflammable-storage-cabinets",[229],{"title":45,"url":46},{"description":221},"_equipments\u002Fflammable-storage-cabinets","vdWXnyVvFnMrZZgqVp47jJspYZ-VgZqG6Kayme3DGZg",{"id":234,"title":235,"body":236,"category":33,"description":243,"extension":14,"images":244,"links":246,"meta":248,"name":249,"navigation":16,"path":250,"pdfs":251,"room":47,"seo":253,"stem":254,"__hash__":255},"equipments\u002F_equipments\u002Ffreezer-25c.md","Freezer 25c",{"type":7,"value":237,"toc":241},[238],[28,239,240],{},"The Freezer -25°C is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":242},[],"Used for the safe storage of temperature-sensitive chemical reagents, polymers, and biochemical samples.",[245],"\u002Fimages\u002Flabs\u002Ffreezer-25c\u002FFreezer -25 degree Celsius.jpg",[247],{"title":39,"url":17,"description":40},{},"Freezer -25°C","\u002F_equipments\u002Ffreezer-25c",[252],{"title":45,"url":46},{"description":243},"_equipments\u002Ffreezer-25c","lpSH7OtxsSsqoCtNSvZY0g6_qrrUa1daxuFvAajINwc",{"id":257,"title":258,"body":259,"category":33,"description":266,"extension":14,"images":267,"links":269,"meta":271,"name":258,"navigation":16,"path":272,"pdfs":273,"room":47,"seo":275,"stem":276,"__hash__":277},"equipments\u002F_equipments\u002Ffume-hood.md","Fume Hood",{"type":7,"value":260,"toc":264},[261],[28,262,263],{},"The Fume Hood is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":265},[],"Provides safe chemical handling by venting toxic vapors, gases, and dusts away from the user.",[268],"\u002Fimages\u002Flabs\u002Ffume-hood\u002Ffume hood.jpg",[270],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Ffume-hood",[274],{"title":45,"url":46},{"description":266},"_equipments\u002Ffume-hood","3qIUzvVC2MZu-ITMVOegpluSGlneoa-eY-mB3Dx3pUI",{"id":279,"title":280,"body":281,"category":33,"description":288,"extension":14,"images":289,"links":291,"meta":293,"name":280,"navigation":16,"path":294,"pdfs":295,"room":47,"seo":297,"stem":298,"__hash__":299},"equipments\u002F_equipments\u002Fglovebox-workstations.md","Glovebox Workstations",{"type":7,"value":282,"toc":286},[283],[28,284,285],{},"The Glovebox Workstations is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":287},[],"Provides a hermetically sealed environment filled with inert gas (nitrogen or argon) for handling air- and moisture-sensitive substances.",[290],"\u002Fimages\u002Flabs\u002Fglovebox-workstations\u002FGlovebox Workstations.jpg",[292],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fglovebox-workstations",[296],{"title":45,"url":46},{"description":288},"_equipments\u002Fglovebox-workstations","xQrAoNZyWpH8bJeTG9tjzUc0hypFnAkoNnf3lKjsdG0",{"id":301,"title":302,"body":303,"category":174,"description":310,"extension":14,"images":311,"links":313,"meta":315,"name":302,"navigation":16,"path":316,"pdfs":317,"room":47,"seo":319,"stem":320,"__hash__":321},"equipments\u002F_equipments\u002Fhigh-temperature-chamber-furnace.md","High Temperature Chamber Furnace",{"type":7,"value":304,"toc":308},[305],[28,306,307],{},"The High Temperature Chamber Furnace is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":309},[],"Operates at temperatures up to 1600°C under controlled atmospheres of inert protective gas for sintering and heat treatment.",[312],"\u002Fimages\u002Flabs\u002Fhigh-temperature-chamber-furnace\u002FHigh Temperature Chamber Furnace with protective insert gas.jpg",[314],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fhigh-temperature-chamber-furnace",[318],{"title":45,"url":46},{"description":310},"_equipments\u002Fhigh-temperature-chamber-furnace","RepFIrGOM26oU3Pr7bZilsKAfnSdopB1H7uZiQvulkQ",{"id":323,"title":324,"body":325,"category":33,"description":332,"extension":14,"images":333,"links":335,"meta":337,"name":324,"navigation":16,"path":338,"pdfs":339,"room":47,"seo":341,"stem":342,"__hash__":343},"equipments\u002F_equipments\u002Fhotplate.md","Hotplate",{"type":7,"value":326,"toc":330},[327],[28,328,329],{},"The Hotplate is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":331},[],"Used for heating liquids, solutions, and samples under precise temperature control in daily laboratory tasks.",[334],"\u002Fimages\u002Flabs\u002Fhotplate\u002FHotplate.jpg",[336],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fhotplate",[340],{"title":45,"url":46},{"description":332},"_equipments\u002Fhotplate","qKee8uzGYYojxcygAhawgYlMdQuyq-6ZPGVMDssx56I",{"id":345,"title":346,"body":347,"category":354,"description":355,"extension":14,"images":356,"links":358,"meta":360,"name":361,"navigation":16,"path":362,"pdfs":363,"room":47,"seo":365,"stem":366,"__hash__":367},"equipments\u002F_equipments\u002Fincident-photon-to-current-efficiency-ipce.md","Incident Photon To Current Efficiency Ipce",{"type":7,"value":348,"toc":352},[349],[28,350,351],{},"The Incident Photon-to-Current Efficiency (IPCE) is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":353},[],"Materials Characterization","Characterizes the spectral response and quantum efficiency of photovoltaic cells and photoelectrochemical devices.",[357],"\u002Fimages\u002Flabs\u002Fincident-photon-to-current-efficiency-ipce\u002Fincident photon to current effect.jpg",[359],{"title":39,"url":17,"description":40},{},"Incident Photon-to-Current Efficiency (IPCE)","\u002F_equipments\u002Fincident-photon-to-current-efficiency-ipce",[364],{"title":45,"url":46},{"description":355},"_equipments\u002Fincident-photon-to-current-efficiency-ipce","U0cjWuVKGrCHsz9JEwHPJjXG4FOPn5R-GqkJzUqlNuE",{"id":369,"title":370,"body":371,"category":33,"description":378,"extension":14,"images":379,"links":381,"meta":383,"name":370,"navigation":16,"path":384,"pdfs":385,"room":47,"seo":387,"stem":388,"__hash__":389},"equipments\u002F_equipments\u002Finfrared-thermometer.md","Infrared Thermometer",{"type":7,"value":372,"toc":376},[373],[28,374,375],{},"The Infrared Thermometer is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":377},[],"Measures surface temperatures from a distance without physical contact, suitable for high-temperature furnace monitoring.",[380],"\u002Fimages\u002Flabs\u002Finfrared-thermometer\u002FInfrared thermometer.png",[382],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Finfrared-thermometer",[386],{"title":45,"url":46},{"description":378},"_equipments\u002Finfrared-thermometer","f3QxkppvSDQ6K4Xz4GeO4bbrKok1Xmc6yvFy3yNftjs",{"id":391,"title":392,"body":393,"category":354,"description":400,"extension":14,"images":401,"links":403,"meta":405,"name":392,"navigation":16,"path":406,"pdfs":407,"room":47,"seo":409,"stem":410,"__hash__":411},"equipments\u002F_equipments\u002Flaser-diffraction-particle-size-analyzer.md","Laser Diffraction Particle Size Analyzer",{"type":7,"value":394,"toc":398},[395],[28,396,397],{},"The Laser Diffraction Particle Size Analyzer is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":399},[],"Determines the particle size distribution of powders and suspensions using advanced laser diffraction technology.",[402],"\u002Fimages\u002Flabs\u002Flaser-diffraction-particle-size-analyzer\u002FDiffraction particle size analysis and suspension stability.jpg",[404],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Flaser-diffraction-particle-size-analyzer",[408],{"title":45,"url":46},{"description":400},"_equipments\u002Flaser-diffraction-particle-size-analyzer","gSj2TE34e3ib_p5ql-hcQG_irQrVKQE5-NjLXThYIKQ",{"id":413,"title":414,"body":415,"category":33,"description":422,"extension":14,"images":423,"links":425,"meta":427,"name":414,"navigation":16,"path":428,"pdfs":429,"room":47,"seo":431,"stem":432,"__hash__":433},"equipments\u002F_equipments\u002Fmagnetic-stirrer.md","Magnetic Stirrer",{"type":7,"value":416,"toc":420},[417],[28,418,419],{},"The Magnetic Stirrer is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":421},[],"Uses a rotating magnetic field to stir chemical solutions at precise speeds and temperatures.",[424],"\u002Fimages\u002Flabs\u002Fmagnetic-stirrer\u002Fmagnetic stirrer.jpg",[426],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fmagnetic-stirrer",[430],{"title":45,"url":46},{"description":422},"_equipments\u002Fmagnetic-stirrer","ZwD-x-8JE8_KbD8lg_zFBFYaSDuJjRsM-2PXzrjCy9s",{"id":435,"title":436,"body":437,"category":354,"description":444,"extension":14,"images":445,"links":447,"meta":449,"name":436,"navigation":16,"path":450,"pdfs":451,"room":47,"seo":453,"stem":454,"__hash__":455},"equipments\u002F_equipments\u002Fmicro-hardness-tester.md","Micro Hardness Tester",{"type":7,"value":438,"toc":442},[439],[28,440,441],{},"The Micro Hardness Tester is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":443},[],"Measures the micro-indentation hardness (Vickers\u002FKnoop) of metals, ceramics, and thin coatings.",[446],"\u002Fimages\u002Flabs\u002Fmicro-hardness-tester\u002FMicro Hardness tester.jpg",[448],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fmicro-hardness-tester",[452],{"title":45,"url":46},{"description":444},"_equipments\u002Fmicro-hardness-tester","6x_HZwZQOSvJpkHol6QI6bOztjUzl5JvSO0Sa2HUSkQ",{"id":457,"title":458,"body":459,"category":466,"description":467,"extension":14,"images":468,"links":470,"meta":472,"name":473,"navigation":16,"path":474,"pdfs":475,"room":47,"seo":477,"stem":478,"__hash__":479},"equipments\u002F_equipments\u002Fmicro-raman-spectrometer.md","Micro Raman Spectrometer",{"type":7,"value":460,"toc":464},[461],[28,462,463],{},"The Micro-Raman Spectrometer is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":465},[],"Spectroscopy & Analysis","Provides non-destructive chemical analysis and molecular structural information by measuring vibrational transitions.",[469],"\u002Fimages\u002Flabs\u002Fmicro-raman-spectrometer\u002FMicro-raman spectrometer.jpg",[471],{"title":39,"url":17,"description":40},{},"Micro-Raman Spectrometer","\u002F_equipments\u002Fmicro-raman-spectrometer",[476],{"title":45,"url":46},{"description":467},"_equipments\u002Fmicro-raman-spectrometer","x2JqCb55R-rOGP1XJ98MQ--moVaKDkHInkc9z6m8Pyg",{"id":481,"title":482,"body":483,"category":174,"description":490,"extension":14,"images":491,"links":493,"meta":495,"name":482,"navigation":16,"path":496,"pdfs":497,"room":47,"seo":499,"stem":500,"__hash__":501},"equipments\u002F_equipments\u002Fmicrolithography-system.md","Microlithography System",{"type":7,"value":484,"toc":488},[485],[28,486,487],{},"The Microlithography System is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":489},[],"Projects microscopic circuit patterns onto photoresist-coated substrates for microfluidic and semiconductor device fabrication.",[492],"\u002Fimages\u002Flabs\u002Fmicrolithography-system\u002FMicrolithography.jpg",[494],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fmicrolithography-system",[498],{"title":45,"url":46},{"description":490},"_equipments\u002Fmicrolithography-system","j9cJHKhahVDI5sNGP77HOvKSk3Tj-UuVJNenW5SARUk",{"id":503,"title":504,"body":505,"category":33,"description":512,"extension":14,"images":513,"links":515,"meta":517,"name":518,"navigation":16,"path":519,"pdfs":520,"room":47,"seo":522,"stem":523,"__hash__":524},"equipments\u002F_equipments\u002Fmili-q-water-purification-system.md","Mili Q Water Purification System",{"type":7,"value":506,"toc":510},[507],[28,508,509],{},"The Mili-Q Water Purification System is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":511},[],"Produces ultra-pure water with 18.2 MΩ·cm resistivity, essential for sensitive chemical synthesis and characterization.",[514],"\u002Fimages\u002Flabs\u002Fmili-q-water-purification-system\u002FMili-Q water purification system.jpg",[516],{"title":39,"url":17,"description":40},{},"Mili-Q Water Purification System","\u002F_equipments\u002Fmili-q-water-purification-system",[521],{"title":45,"url":46},{"description":512},"_equipments\u002Fmili-q-water-purification-system","3dDR1zFcsh07ZA4HWqmwbbPjuUyzcffh-WGHuwUi9Uc",{"id":526,"title":527,"body":528,"category":174,"description":535,"extension":14,"images":536,"links":538,"meta":540,"name":527,"navigation":16,"path":541,"pdfs":542,"room":47,"seo":544,"stem":545,"__hash__":546},"equipments\u002F_equipments\u002Fnanolithography-system.md","Nanolithography System",{"type":7,"value":529,"toc":533},[530],[28,531,532],{},"The Nanolithography System is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":534},[],"Writes nanometer-scale patterns onto substrates using electron-beam or scanning probe techniques for nanotechnology research.",[537],"\u002Fimages\u002Flabs\u002Fnanolithography-system\u002FNanolithography.jpg",[539],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fnanolithography-system",[543],{"title":45,"url":46},{"description":535},"_equipments\u002Fnanolithography-system","6G5xqUnGO8IwRuiYpBphh-UeMOdILsAJHDihWt3k_08",{"id":548,"title":549,"body":550,"category":174,"description":557,"extension":14,"images":558,"links":560,"meta":562,"name":549,"navigation":16,"path":563,"pdfs":564,"room":47,"seo":566,"stem":567,"__hash__":568},"equipments\u002F_equipments\u002Foxidation-furnace.md","Oxidation Furnace",{"type":7,"value":551,"toc":555},[552],[28,553,554],{},"The Oxidation Furnace is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":556},[],"Designed for high-temperature thermal oxidation of silicon wafers and metal alloys under pure oxygen environments.",[559],"\u002Fimages\u002Flabs\u002Foxidation-furnace\u002Foxidation furnace.jpg",[561],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Foxidation-furnace",[565],{"title":45,"url":46},{"description":557},"_equipments\u002Foxidation-furnace","rTy9QJV96SpNCXi5CjN8AkWeRPkv0Beu3o5NsUPkdvU",{"id":570,"title":571,"body":572,"category":174,"description":579,"extension":14,"images":580,"links":582,"meta":584,"name":585,"navigation":16,"path":586,"pdfs":587,"room":47,"seo":589,"stem":590,"__hash__":591},"equipments\u002F_equipments\u002Fplanetary-ball-mill-abrasion-tester.md","Planetary Ball Mill Abrasion Tester",{"type":7,"value":573,"toc":577},[574],[28,575,576],{},"The Planetary Ball Mill & Abrasion Tester is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":578},[],"Used for high-energy grinding of materials into nano-powders and evaluating rotary abrasion resistance.",[581],"\u002Fimages\u002Flabs\u002Fplanetary-ball-mill-abrasion-tester\u002FPlanetary ball mill+ Rotary abrasion tester.jpg",[583],{"title":39,"url":17,"description":40},{},"Planetary Ball Mill & Abrasion Tester","\u002F_equipments\u002Fplanetary-ball-mill-abrasion-tester",[588],{"title":45,"url":46},{"description":579},"_equipments\u002Fplanetary-ball-mill-abrasion-tester","0k5SX21AyHfmopmHsbpGXh9u3AKLhKzeHk6Ny7S2FxM",{"id":593,"title":594,"body":595,"category":33,"description":602,"extension":14,"images":603,"links":605,"meta":607,"name":594,"navigation":16,"path":608,"pdfs":609,"room":47,"seo":611,"stem":612,"__hash__":613},"equipments\u002F_equipments\u002Fplasma-cleaner.md","Plasma Cleaner",{"type":7,"value":596,"toc":600},[597],[28,598,599],{},"The Plasma Cleaner is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":601},[],"Removes organic contaminants and activates surfaces at the molecular level using low-pressure oxygen or argon plasma.",[604],"\u002Fimages\u002Flabs\u002Fplasma-cleaner\u002Fplasma Cleaner.jpg",[606],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fplasma-cleaner",[610],{"title":45,"url":46},{"description":602},"_equipments\u002Fplasma-cleaner","Zj9AVzoEyHOeJQU0j2asSX5v8NcC4JBuIxAcQ5DW_PQ",{"id":615,"title":616,"body":617,"category":174,"description":624,"extension":14,"images":625,"links":627,"meta":629,"name":630,"navigation":16,"path":631,"pdfs":632,"room":47,"seo":634,"stem":635,"__hash__":636},"equipments\u002F_equipments\u002Freactive-ion-etching-rie-system.md","Reactive Ion Etching Rie System",{"type":7,"value":618,"toc":622},[619],[28,620,621],{},"The Reactive Ion Etching (RIE) System is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":623},[],"Uses chemically reactive plasma to remove material deposited on wafers under vacuum for micro-pattern transfer.",[626],"\u002Fimages\u002Flabs\u002Freactive-ion-etching-rie-system\u002FRIE etching.jpg",[628],{"title":39,"url":17,"description":40},{},"Reactive Ion Etching (RIE) System","\u002F_equipments\u002Freactive-ion-etching-rie-system",[633],{"title":45,"url":46},{"description":624},"_equipments\u002Freactive-ion-etching-rie-system","tlqGh6f-Xi1HyfRGV_ZHI49jC2ak1yd9ud3esKl-TFQ",{"id":638,"title":639,"body":640,"category":33,"description":647,"extension":14,"images":648,"links":650,"meta":652,"name":653,"navigation":16,"path":654,"pdfs":655,"room":47,"seo":657,"stem":658,"__hash__":659},"equipments\u002F_equipments\u002Frefrigerator-freezer-4-to-18c.md","Refrigerator Freezer 4 To 18c",{"type":7,"value":641,"toc":645},[642],[28,643,644],{},"The Refrigerator & Freezer (4 to -18°C) is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":646},[],"Standard dual-compartment cooling unit for preserving daily chemical samples and volatile compounds.",[649],"\u002Fimages\u002Flabs\u002Frefrigerator-freezer-4-to-18c\u002FRefrigator 4 to -18 degree Celsius.jpg",[651],{"title":39,"url":17,"description":40},{},"Refrigerator & Freezer (4 to -18°C)","\u002F_equipments\u002Frefrigerator-freezer-4-to-18c",[656],{"title":45,"url":46},{"description":647},"_equipments\u002Frefrigerator-freezer-4-to-18c","_DU6j3b2eIuAgJaPRRJeSTO_CY1JIedU1TGQGbYYhjs",{"id":661,"title":662,"body":663,"category":33,"description":670,"extension":14,"images":671,"links":673,"meta":675,"name":662,"navigation":16,"path":676,"pdfs":677,"room":47,"seo":679,"stem":680,"__hash__":681},"equipments\u002F_equipments\u002Fsalt-spray-test-chamber.md","Salt Spray Test Chamber",{"type":7,"value":664,"toc":668},[665],[28,666,667],{},"The Salt Spray Test Chamber is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":669},[],"Simulates corrosive salt spray environments to test the corrosion resistance of protective coatings and metals.",[672],"\u002Fimages\u002Flabs\u002Fsalt-spray-test-chamber\u002Fsalt test chamber.jpg",[674],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fsalt-spray-test-chamber",[678],{"title":45,"url":46},{"description":670},"_equipments\u002Fsalt-spray-test-chamber","9DEXfiEoQ80bi62ARTUXeVXnP8QyA3i_vciCj7Lz5XU",{"id":683,"title":684,"body":685,"category":61,"description":692,"extension":14,"images":693,"links":695,"meta":697,"name":698,"navigation":16,"path":699,"pdfs":700,"room":47,"seo":702,"stem":703,"__hash__":704},"equipments\u002F_equipments\u002Fscanning-electron-microscope-semedsebsd.md","Scanning Electron Microscope Semedsebsd",{"type":7,"value":686,"toc":690},[687],[28,688,689],{},"The Scanning Electron Microscope (SEM\u002FEDS\u002FEBSD) is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":691},[],"Enables ultra-high resolution electron imaging combined with chemical composition mapping (EDS) and crystallographic orientation analysis (EBSD).",[694],"\u002Fimages\u002Flabs\u002Fscanning-electron-microscope-semedsebsd\u002FSEM+EDS+EBSD.jpg",[696],{"title":39,"url":17,"description":40},{},"Scanning Electron Microscope (SEM\u002FEDS\u002FEBSD)","\u002F_equipments\u002Fscanning-electron-microscope-semedsebsd",[701],{"title":45,"url":46},{"description":692},"_equipments\u002Fscanning-electron-microscope-semedsebsd","taYlX4QCcH1va5cK1uGAKGNEUbja1ixgy_e6WOyVo9o",{"id":706,"title":707,"body":708,"category":354,"description":715,"extension":14,"images":716,"links":718,"meta":720,"name":721,"navigation":16,"path":722,"pdfs":723,"room":47,"seo":725,"stem":726,"__hash__":727},"equipments\u002F_equipments\u002Fspecific-surface-area-porosimetry-system.md","Specific Surface Area Porosimetry System",{"type":7,"value":709,"toc":713},[710],[28,711,712],{},"The Specific Surface Area & Porosimetry System is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":714},[],"Measures BET specific surface area, pore volume, and pore size distributions of porous materials using gas adsorption.",[717],"\u002Fimages\u002Flabs\u002Fspecific-surface-area-porosimetry-system\u002FSpecific Surface area and porosimetry system.jpg",[719],{"title":39,"url":17,"description":40},{},"Specific Surface Area & Porosimetry System","\u002F_equipments\u002Fspecific-surface-area-porosimetry-system",[724],{"title":45,"url":46},{"description":715},"_equipments\u002Fspecific-surface-area-porosimetry-system","YEabyfoeMn8BsxVBG_FwLXZHsspiRGobGbsoCJTqqsQ",{"id":729,"title":730,"body":731,"category":174,"description":738,"extension":14,"images":739,"links":741,"meta":743,"name":730,"navigation":16,"path":744,"pdfs":745,"room":47,"seo":747,"stem":748,"__hash__":749},"equipments\u002F_equipments\u002Fspin-coater.md","Spin Coater",{"type":7,"value":732,"toc":736},[733],[28,734,735],{},"The Spin Coater is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":737},[],"Deposits uniform thin polymer and organic films onto flat substrates using high-speed rotational force.",[740],"\u002Fimages\u002Flabs\u002Fspin-coater\u002Fspin coating.jpg",[742],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fspin-coater",[746],{"title":45,"url":46},{"description":738},"_equipments\u002Fspin-coater","Wryod1zUsT6yaxxuzYTd9UEEr9s6ByyWO6pn3Yu0NYk",{"id":751,"title":752,"body":753,"category":354,"description":760,"extension":14,"images":761,"links":763,"meta":765,"name":752,"navigation":16,"path":766,"pdfs":767,"room":47,"seo":769,"stem":770,"__hash__":771},"equipments\u002F_equipments\u002Fspray-droplet-size-measurement-system.md","Spray Droplet Size Measurement System",{"type":7,"value":754,"toc":758},[755],[28,756,757],{},"The Spray Droplet Size Measurement System is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":759},[],"Characterizes the dynamic droplet and particle sizes in liquid sprays and aerosols for nebulizer and fuel nozzle testing.",[762],"\u002Fimages\u002Flabs\u002Fspray-droplet-size-measurement-system\u002FSpray particle and spray droplet size measurement system.jpg",[764],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fspray-droplet-size-measurement-system",[768],{"title":45,"url":46},{"description":760},"_equipments\u002Fspray-droplet-size-measurement-system","ZUVPtjMK3tQbto3LQl7datVR12ZZPfppoolBSiVu6a8",{"id":773,"title":774,"body":775,"category":354,"description":782,"extension":14,"images":783,"links":785,"meta":787,"name":774,"navigation":16,"path":788,"pdfs":789,"room":47,"seo":791,"stem":792,"__hash__":793},"equipments\u002F_equipments\u002Fsurface-profilometer.md","Surface Profilometer",{"type":7,"value":776,"toc":780},[777],[28,778,779],{},"The Surface Profilometer is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":781},[],"Measures surface roughness, waviness, and step height of thin films and micro-fabricated structures using a contact stylus.",[784],"\u002Fimages\u002Flabs\u002Fsurface-profilometer\u002FSurface Profilometer .jpg",[786],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fsurface-profilometer",[790],{"title":45,"url":46},{"description":782},"_equipments\u002Fsurface-profilometer","zKt-2ZAPS6hGiNGx92GG7LGv8dwkV3pnU9VdAw0qfH4",{"id":795,"title":796,"body":797,"category":150,"description":804,"extension":14,"images":805,"links":807,"meta":809,"name":810,"navigation":16,"path":811,"pdfs":812,"room":47,"seo":814,"stem":815,"__hash__":816},"equipments\u002F_equipments\u002Fthermogravimetric-analyzer-tga.md","Thermogravimetric Analyzer Tga",{"type":7,"value":798,"toc":802},[799],[28,800,801],{},"The Thermogravimetric Analyzer (TGA) is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":803},[],"Enables highly precise thermogravimetric analysis (TGA) for decomposing, oxidizing, and checking thermal limits of high-performance polymers and composites.",[806],"\u002Fimages\u002Flabs\u002Fthermogravimetric-analyzer-tga\u002FThermogravimetric Analyzer (TGA).jpg",[808],{"title":39,"url":17,"description":40},{},"Thermogravimetric Analyzer (TGA)","\u002F_equipments\u002Fthermogravimetric-analyzer-tga",[813],{"title":45,"url":46},{"description":804},"_equipments\u002Fthermogravimetric-analyzer-tga","D-Z4XtJuEPRQWKEmIsl85prOHSy7_XiouhPm7Wj2r_8",{"id":818,"title":819,"body":820,"category":150,"description":827,"extension":14,"images":828,"links":830,"meta":832,"name":833,"navigation":16,"path":834,"pdfs":835,"room":47,"seo":837,"stem":838,"__hash__":839},"equipments\u002F_equipments\u002Fthermogravimetric-analyzer-tga-compact.md","Thermogravimetric Analyzer Tga Compact",{"type":7,"value":821,"toc":825},[822],[28,823,824],{},"The Thermogravimetric Analyzer (TGA - Compact) is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":826},[],"Measures sample weight changes under controlled temperature programs to study thermal stability and decomposition behavior.",[829],"\u002Fimages\u002Flabs\u002Fthermogravimetric-analyzer-tga-compact\u002FTGA.jpg",[831],{"title":39,"url":17,"description":40},{},"Thermogravimetric Analyzer (TGA - Compact)","\u002F_equipments\u002Fthermogravimetric-analyzer-tga-compact",[836],{"title":45,"url":46},{"description":827},"_equipments\u002Fthermogravimetric-analyzer-tga-compact","L1fi6wr3wnf3OAC40uyXsBMKoEBP4rOVDO4IB-XQ5Ac",{"id":841,"title":842,"body":843,"category":466,"description":850,"extension":14,"images":851,"links":853,"meta":855,"name":856,"navigation":16,"path":857,"pdfs":858,"room":47,"seo":860,"stem":861,"__hash__":862},"equipments\u002F_equipments\u002Ftime-domain-terahertz-spectrometer.md","Time Domain Terahertz Spectrometer",{"type":7,"value":844,"toc":848},[845],[28,846,847],{},"The Time-Domain Terahertz Spectrometer is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":849},[],"Utilizes terahertz pulses to perform non-contact, non-destructive spectroscopy and thickness measurements on non-conducting materials.",[852],"\u002Fimages\u002Flabs\u002Ftime-domain-terahertz-spectrometer\u002FTime domain spectrometer.jpg",[854],{"title":39,"url":17,"description":40},{},"Time-Domain Terahertz Spectrometer","\u002F_equipments\u002Ftime-domain-terahertz-spectrometer",[859],{"title":45,"url":46},{"description":850},"_equipments\u002Ftime-domain-terahertz-spectrometer","N8lOQbsmEKqF9pR8y7JM2KBn42PLnMXBTJX_t4ZOlQQ",{"id":864,"title":865,"body":866,"category":33,"description":873,"extension":14,"images":874,"links":876,"meta":878,"name":865,"navigation":16,"path":879,"pdfs":880,"room":47,"seo":882,"stem":883,"__hash__":884},"equipments\u002F_equipments\u002Fultrasonic-bath.md","Ultrasonic Bath",{"type":7,"value":867,"toc":871},[868],[28,869,870],{},"The Ultrasonic Bath is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":872},[],"Uses ultrasonic waves to clean lab glassware, dissolve solutes, and disperse nanoparticles in suspensions.",[875],"\u002Fimages\u002Flabs\u002Fultrasonic-bath\u002FUltrasonic bath.jpg",[877],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fultrasonic-bath",[881],{"title":45,"url":46},{"description":873},"_equipments\u002Fultrasonic-bath","KLSg9ChXihUIukpcLkvFpqEpkaBamMwsyK3bsDrYZOo",{"id":886,"title":887,"body":888,"category":33,"description":895,"extension":14,"images":896,"links":898,"meta":900,"name":887,"navigation":16,"path":901,"pdfs":902,"room":47,"seo":904,"stem":905,"__hash__":906},"equipments\u002F_equipments\u002Fwet-bench.md","Wet Bench",{"type":7,"value":889,"toc":893},[890],[28,891,892],{},"The Wet Bench is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":894},[],"A clean workbench equipped with water lines and local exhaust, used for acid etching and wet chemical cleaning.",[897],"\u002Fimages\u002Flabs\u002Fwet-bench\u002Fwet bench.jpg",[899],{"title":39,"url":17,"description":40},{},"\u002F_equipments\u002Fwet-bench",[903],{"title":45,"url":46},{"description":895},"_equipments\u002Fwet-bench","79j054H-cQEnlzlM0w5c-ha9xVXa9K-HcTZvgtKdTb8",{"id":908,"title":909,"body":910,"category":466,"description":917,"extension":14,"images":918,"links":920,"meta":922,"name":923,"navigation":16,"path":924,"pdfs":925,"room":47,"seo":927,"stem":928,"__hash__":929},"equipments\u002F_equipments\u002Fx-ray-fluorescence-spectrometer-xrf.md","X Ray Fluorescence Spectrometer Xrf",{"type":7,"value":911,"toc":915},[912],[28,913,914],{},"The X-ray Fluorescence Spectrometer (XRF) is integrated into our master's program courses and advanced research activities. Students use this equipment in laboratory exercises, group team projects, and master theses to study material properties and manufacturing processes.",{"title":10,"searchDepth":11,"depth":11,"links":916},[],"Provides non-destructive elemental composition analysis of solid, powder, and liquid materials.",[919],"\u002Fimages\u002Flabs\u002Fx-ray-fluorescence-spectrometer-xrf\u002FX-ray Fluorescence spectrometer (XRF).jpg",[921],{"title":39,"url":17,"description":40},{},"X-ray Fluorescence Spectrometer (XRF)","\u002F_equipments\u002Fx-ray-fluorescence-spectrometer-xrf",[926],{"title":45,"url":46},{"description":917},"_equipments\u002Fx-ray-fluorescence-spectrometer-xrf","vEBZ91tB8gS-kpy10u3Y0Qqg5ZEEKybRIg5W6l_91NQ",[931,976,1189,1368,1499,1589,1717,1871,2030,2160,2339,2495,2615,2732,2907,3024,3155,3310,3415],{"id":932,"title":933,"body":934,"category":966,"date":967,"description":968,"extension":14,"highlighted":969,"image":970,"meta":971,"navigation":16,"path":972,"seo":973,"stem":974,"__hash__":975},"activities\u002F_activities\u002F00-template.md","Sample Activity Title",{"type":7,"value":935,"toc":964},[936,941,944,955,961],[937,938,940],"h1",{"id":939},"activity-content","Activity Content",[28,942,943],{},"Write the full story of the activity here. 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",[951,993,994],{},"Dr. Hieu Linh Duong"," has co-authored a high-impact international review in the prestigious journal ",[951,997,998],{},"Applied Microbiology and Biotechnology"," (Q1, Impact Factor = 4.3), in partnership with the renowned ",[951,1001,1002],{},"Helmholtz Centre for Environmental Research (UFZ)"," in Leipzig, Germany.",[28,1005,1006,1007,1010],{},"The publication, titled ",[951,1008,1009],{},"\"Biocalorimetry for the biotechnological use of natural and synthetic macromolecules\""," (2026), explores how measuring the metabolic heat of microorganisms in real-time can revolutionize the way we recycle plastic waste and process solid substrates.",[1012,1013],"hr",{},[1015,1016,1018],"h2",{"id":1017},"the-core-innovation-what-is-biocalorimetry","🌟 The Core Innovation: What is Biocalorimetry?",[28,1020,1021],{},"Biocalorimetry is the real-time measurement of the microscopic amounts of heat released by living microbes as they consume and break down materials. Because all living processes generate heat, this acts as a universal, non-invasive sensor of microbial activity.",[28,1023,1024],{},"This research highlights how biocalorimetry serves as a game-changing tool for solid substrates—ranging from agricultural plant biomass to synthetic plastic polymers—which are notoriously difficult to monitor with traditional liquid sensors.",[1012,1026],{},[1015,1028,1030],{"id":1029},"key-research-pillars-student-takeaways","🚀 Key Research Pillars & Student Takeaways",[28,1032,1033],{},"For students in our Materials Science program, this publication represents exactly the kind of interdisciplinary, real-world science they engage in at VGU. The review outlines three major breakthroughs:",[1035,1036,1038],"h3",{"id":1037},"_1-multi-scale-tracking-from-nanoliters-to-industrial-bio-reactors","1. Multi-Scale Tracking (From Nanoliters to Industrial Bio-Reactors)",[28,1040,1041,1042,1045,1046,1049],{},"The review provides a critical roadmap of thermodynamic tools capable of tracking microbial activity across massive scale gaps—from tiny ",[951,1043,1044],{},"nanoliter chip calorimeters"," used in high-throughput screening to giant ",[951,1047,1048],{},"100 m³ industrial bioreactors"," used in global manufacturing.",[1035,1051,1053],{"id":1052},"_2-upcycling-solid-wastes-plastic-enzymatic-recycling","2. Upcycling Solid Wastes & Plastic Enzymatic Recycling",[28,1055,1056,1057,1060],{},"Unlike conventional fermentation in liquid liquids, this work focuses heavily on solid substrates. It demonstrates how metabolic heat tracking optimizes the ",[951,1058,1059],{},"enzymatic recycling of plastics"," (like PET) and composting, paving the way for next-generation circular bioeconomy solutions.",[1035,1062,1064],{"id":1063},"_3-merging-thermodynamics-with-artificial-intelligence-ai","3. Merging Thermodynamics with Artificial Intelligence (AI)",[28,1066,1067,1068,1071],{},"The authors present a visionary perspective: by combining biocalorimetric metabolic heat data with advanced ",[951,1069,1070],{},"-omics technologies and machine learning",", researchers can build highly predictive AI models to design self-optimizing sustainable bioprocesses.",[1012,1073],{},[1075,1076,1077],"blockquote",{},[28,1078,1079,1083,1086],{},[1080,1081,1082],"span",{},"!NOTE",[951,1084,1085],{},"Why this matters for MSI Students:","\nThis publication showcases VGU's rising research footprint and directly connects to our curriculum in polymer chemistry, advanced characterization, and sustainability engineering. Our students work alongside active researchers like Dr. Linh Duong to solve actual environmental challenges.",[1012,1088],{},[1015,1090,1092],{"id":1091},"institutional-support-collaboration","🔬 Institutional Support & Collaboration",[28,1094,1095],{},"This international breakthrough was made possible through extensive collaborative funding and networks:",[945,1097,1098,1104,1119,1137],{},[948,1099,1100,1103],{},[951,1101,1102],{},"Helmholtz Association"," (Integration Platform at UFZ)",[948,1105,1106,1109,1110,1114,1115,1118],{},[951,1107,1108],{},"Helmholtz Investment and Networking Fund"," (Circular Economy projects: ",[1111,1112,1113],"em",{},"FINEST"," – KA2-HSC-10 and ",[1111,1116,1117],{},"PUreValue"," – KA-HSC-13)",[948,1120,1121,1124,1125,1128,1129,1132,1133,1136],{},[951,1122,1123],{},"German Research Foundation (DFG)"," (Projects: ",[1111,1126,1127],{},"TherMic",", ",[1111,1130,1131],{},"DriverPool",", and ",[1111,1134,1135],{},"EnergyStructures",")",[948,1138,1139,1140],{},"Open Access facilitated by ",[951,1141,1142],{},"Projekt DEAL",[28,1144,1145],{},"This joint effort highlights the strong, direct ties between VGU and leading German scientific research institutions, giving our students unique pathways to international research careers.",[1012,1147],{},[1035,1149,1151],{"id":1150},"access-the-full-research","📖 Access the Full Research",[28,1153,1154,1155,1158,1159],{},"Explore the full details of this pioneering work:\n🔗 ",[951,1156,1157],{},"Full Article (Open Access):"," ",[1160,1161,1162],"a",{"href":1162,"rel":1163},"https:\u002F\u002Fdoi.org\u002F10.1007\u002Fs00253-026-13871-5",[1164],"nofollow",{"title":10,"searchDepth":11,"depth":11,"links":1166},[1167,1168,1174],{"id":1017,"depth":11,"text":1018},{"id":1029,"depth":11,"text":1030,"children":1169},[1170,1172,1173],{"id":1037,"depth":1171,"text":1038},3,{"id":1052,"depth":1171,"text":1053},{"id":1063,"depth":1171,"text":1064},{"id":1091,"depth":11,"text":1092,"children":1175},[1176],{"id":1150,"depth":1171,"text":1151},"Achievements & Events","2026-05-28","Discover VGU breakthrough circular bioeconomy research: Dr. Hieu Linh Duong's Q1 publication on biocalorimetry, sustainable plastic recycling, and metabolic heat.","\u002Fimages\u002Facademic_activities\u002Fbiocalorimetry-for-the-biotechnological-cover.jpg",{"ja_id":1182,"edited":16,"modules":1183},"13990095",[1184],"polymers","\u002F_activities\u002Fbiocalorimetry-for-the-biotechnological-use-of-natural-and-synthetic-macromolecules",{"title":978,"description":1179},"_activities\u002Fbiocalorimetry-for-the-biotechnological-use-of-natural-and-synthetic-macromolecules","QijodXTXBg0ohPCjivO8H1rl9uP7R4acqiVnFj5hnsQ",{"id":1190,"title":1191,"body":1192,"category":1356,"date":1357,"description":1358,"extension":14,"highlighted":969,"image":1359,"meta":1360,"navigation":16,"path":1364,"seo":1365,"stem":1366,"__hash__":1367},"activities\u002F_activities\u002Fconstruction-materials-trip.md","Excursion: Exploring Cement & Concrete Tech at Mekong Concrete and AAC Plants",{"type":7,"value":1193,"toc":1351},[1194,1197,1204,1215,1217,1221,1228,1231,1251,1253,1263,1265,1269,1276,1279,1299,1301,1305,1315,1318,1320,1327,1333,1339,1345],[937,1195,1191],{"id":1196},"excursion-exploring-cement-concrete-tech-at-mekong-concrete-and-aac-plants",[28,1198,1199,1200,1203],{},"On February 04, 2026, as a core component of the ",[951,1201,1202],{},"Inorganic, Non-Metallic Binders"," module, Master of Science in Materials Science (MSI) students at VGU embarked on a comprehensive, double-excursion to two leading construction-material manufacturers in Long An.",[28,1205,1206,1207,1210,1211,1214],{},"Accompanied by ",[951,1208,1209],{},"Prof. Dr.-Ing. Thomas Bier"," and ",[951,1212,1213],{},"Dr. Duong Hieu Linh",", the field trip gave students a firsthand look at two highly contrasting binder systems—from ultra-lightweight civil building components to massive high-strength structural concrete elements used for international airports and deep infrastructure.",[1012,1216],{},[1015,1218,1220],{"id":1219},"️-morning-session-the-science-of-lightweight-porous-concrete-aac-plant","🏛️ Morning Session: The Science of Lightweight Porous Concrete (AAC Plant)",[28,1222,1223,1224,1227],{},"The morning session was dedicated to exploring ",[951,1225,1226],{},"Autoclaved Aerated Concrete (AAC)"," and reinforced elements—technologies that are revolutionizing civil and residential building designs due to their high energy efficiency.",[28,1229,1230],{},"Students toured the highly automated production facilities and learned about:",[945,1232,1233,1239,1245],{},[948,1234,1235,1238],{},[951,1236,1237],{},"Binder Chemistry & Porosity Control:"," How gypsum, lime, and cement are reacted with aluminum powder to generate hydrogen gas, producing a high-strength, cellular structure with optimized weight.",[948,1240,1241,1244],{},[951,1242,1243],{},"Material Advantages:"," Hands-on analysis of AAC's superior characteristics, including flame retardancy, rapid construction capability, acoustic barriers, and thermal insulation.",[948,1246,1247,1250],{},[951,1248,1249],{},"Eco-Friendly Manufacturing:"," The complete absence of high-temperature firing, dramatically lowering carbon footprints compared to traditional red-clay bricks.",[1012,1252],{},[1075,1254,1255],{},[28,1256,1257,1259,1262],{},[1080,1258,1082],{},[951,1260,1261],{},"MSI Takeaway:"," Autoclaved Aerated Concrete (AAC) is a premier example of how materials scientists engineer micro-porous systems to deliver high structural stability alongside extremely low thermal conductivity.",[1012,1264],{},[1015,1266,1268],{"id":1267},"️-afternoon-session-heavy-duty-structural-concrete-mekong-concrete-plant","🏗️ Afternoon Session: Heavy-Duty Structural Concrete (Mekong Concrete Plant)",[28,1270,1271,1272,1275],{},"In the afternoon, the excursion transitioned from lightweight materials to massive, heavy-duty structural concrete at the ",[951,1273,1274],{},"Mekong Concrete Plant"," in Long An. This plant manufactures precast and ready-mixed concrete designed to withstand extreme loads in major civil infrastructure projects.",[28,1277,1278],{},"Students observed:",[945,1280,1281,1287,1293],{},[948,1282,1283,1286],{},[951,1284,1285],{},"High-Strength Precast Elements:"," The manufacturing of structural beams, massive foundations, and customized structural pieces engineered for airports and deep civil works.",[948,1288,1289,1292],{},[951,1290,1291],{},"Extreme Durability Engineering:"," Formulations designed to resist high mechanical loads, chemical aggression, and wear over long service lives.",[948,1294,1295,1298],{},[951,1296,1297],{},"Contrasting Material Classes:"," Exploring the physical differences in aggregate selection, water-binder ratios, and steel reinforcement compared to the aerated civil concrete studied in the morning.",[1012,1300],{},[1015,1302,1304],{"id":1303},"broadening-horizons-in-materials-engineering","🔬 Broadening Horizons in Materials Engineering",[28,1306,1307,1308,1210,1311,1314],{},"This double-session field trip gave VGU MSI students a balanced, real-world understanding of the construction materials sector. Seeing the direct translation of ",[951,1309,1310],{},"binder technology",[951,1312,1313],{},"material characterization"," from the classroom to automated, high-precision factory floors prepares our graduates to step straight into high-value engineering roles.",[28,1316,1317],{},"We thank the teams at both plants and our flying faculty for organizing this outstanding industry-immersion day!",[1012,1319],{},[28,1321,1322],{},[1323,1324],"img",{"alt":1325,"src":1326},"AAC and Mekong Concrete plants in Long An - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fconstruction-materials-img-1.jpg",[28,1328,1329],{},[1323,1330],{"alt":1331,"src":1332},"AAC and Mekong Concrete plants in Long An - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fconstruction-materials-img-2.jpg",[28,1334,1335],{},[1323,1336],{"alt":1337,"src":1338},"AAC and Mekong Concrete plants in Long An - Illustration 3","\u002Fimages\u002Facademic_activities\u002Fconstruction-materials-img-3.jpg",[28,1340,1341],{},[1323,1342],{"alt":1343,"src":1344},"AAC and Mekong Concrete plants in Long An - Illustration 4","\u002Fimages\u002Facademic_activities\u002Fconstruction-materials-img-4.jpg",[28,1346,1347],{},[1323,1348],{"alt":1349,"src":1350},"AAC and Mekong Concrete plants in Long An - Illustration 5","\u002Fimages\u002Facademic_activities\u002Fconstruction-materials-img-5.jpg",{"title":10,"searchDepth":11,"depth":11,"links":1352},[1353,1354,1355],{"id":1219,"depth":11,"text":1220},{"id":1267,"depth":11,"text":1268},{"id":1303,"depth":11,"text":1304},"Industry Adventures","2026-02-11","MSI Master students visit automated AAC and Mekong Concrete plants in Long An with Prof. Thomas Bier, exploring modern cement chemistry and concrete engineering.","\u002Fimages\u002Facademic_activities\u002Fconstruction-materials-cover.jpg",{"ja_id":1361,"edited":16,"modules":1362},"13162862",[1363],"inorganic-non-metallic-binders","\u002F_activities\u002Fconstruction-materials-trip",{"title":1191,"description":1358},"_activities\u002Fconstruction-materials-trip","rdTxnpu_mJBXgF41WGqVUpqAUXFDyeKB4RP7d3B0H4I",{"id":1369,"title":1370,"body":1371,"category":1177,"date":1488,"description":1489,"extension":14,"highlighted":16,"image":1490,"meta":1491,"navigation":16,"path":1495,"seo":1496,"stem":1497,"__hash__":1498},"activities\u002F_activities\u002Fdaad-scholarships.md","Scholarship Success: VGU Materials Science Students Win Competitive DAAD Awards for Germany",{"type":7,"value":1372,"toc":1481},[1373,1376,1386,1392,1395,1409,1411,1415,1418,1422,1427,1433,1435,1439,1444,1450,1452,1462,1464,1468,1471],[937,1374,1370],{"id":1375},"scholarship-success-vgu-materials-science-students-win-competitive-daad-awards-for-germany",[28,1377,1378,1379,1381,1382,1385],{},"The Master of Science in Materials Science (MSI) program at the ",[951,1380,990],{}," is proud to highlight the outstanding achievement of two students from the MSI Intake 2024 who have been awarded the highly competitive ",[951,1383,1384],{},"DAAD (German Academic Exchange Service) Scholarship",".",[28,1387,1388,1389,1385],{},"This award fully funds their one-year master thesis research stay at our German partner institution, ",[951,1390,1391],{},"Otto von Guericke University Magdeburg (OVGU)",[28,1393,1394],{},"Our scholars are:",[945,1396,1397,1403],{},[948,1398,1399,1402],{},[951,1400,1401],{},"Nguyễn Sơn Tùng"," (Student ID: 21324001)",[948,1404,1405,1408],{},[951,1406,1407],{},"Nguyễn Ngọc Thuỵ Khanh"," (Student ID: 21324009)",[1012,1410],{},[1015,1412,1414],{"id":1413},"️-student-reflections-insights-from-our-scholars","🎙️ Student Reflections: Insights from our Scholars",[28,1416,1417],{},"Hear directly from our DAAD scholars about their experiences in the VGU MSI program and their anticipation of studying in Germany:",[1035,1419,1421],{"id":1420},"nguyễn-sơn-tùng-a-strong-scientific-foundation","🔬 Nguyễn Sơn Tùng: A Strong Scientific Foundation",[1075,1423,1424],{},[28,1425,1426],{},"\"Receiving the DAAD Scholarship is a great honor and motivation for me. The MSI program at VGU has provided a strong academic foundation in materials science, and I am excited to continue my research journey in Germany. I hope to gain deeper knowledge and contribute to advanced materials research in the future.\"",[28,1428,1429],{},[1323,1430],{"alt":1431,"src":1432},"Nguyễn Sơn Tùng - DAAD Scholar 2024","\u002Fimages\u002Facademic_activities\u002Fdaad-scholarships-img-1.png",[1012,1434],{},[1035,1436,1438],{"id":1437},"️-nguyễn-ngọc-thuỵ-khanh-access-to-global-research-networks","⚛️ Nguyễn Ngọc Thuỵ Khanh: Access to Global Research Networks",[1075,1440,1441],{},[28,1442,1443],{},"\"This scholarship opens an incredible opportunity to experience Germany's research environment and collaborate with international scientists. I am very thankful to the MSI program and our professors for their guidance and support throughout my studies.\"",[28,1445,1446],{},[1323,1447],{"alt":1448,"src":1449},"Nguyễn Ngọc Thuỵ Khanh - DAAD Scholar 2024","\u002Fimages\u002Facademic_activities\u002Fdaad-scholarships-img-2.png",[1012,1451],{},[1075,1453,1454],{},[28,1455,1456,1458,1461],{},[1080,1457,1082],{},[951,1459,1460],{},"Direct Pathway to Germany:","\nVGU's Materials Science & Innovation program acts as a launchpad for international research. The direct connection with OVGU Magdeburg ensures that students can transition easily to Germany for funded thesis work, doctoral opportunities, and European careers.",[1012,1463],{},[1015,1465,1467],{"id":1466},"advancing-global-materials-science","🇩🇪 Advancing Global Materials Science",[28,1469,1470],{},"By training globally competitive materials scientists and engineers, the MSI program bridges advanced industry and scientific research.",[28,1472,1473,1474,1210,1477,1480],{},"The entire VGU community congratulates ",[951,1475,1476],{},"Sơn Tùng",[951,1478,1479],{},"Thuỵ Khanh"," on their well-deserved achievements and wishes them a fruitful and inspiring research journey in Magdeburg, Germany!",{"title":10,"searchDepth":11,"depth":11,"links":1482},[1483,1487],{"id":1413,"depth":11,"text":1414,"children":1484},[1485,1486],{"id":1420,"depth":1171,"text":1421},{"id":1437,"depth":1171,"text":1438},{"id":1466,"depth":11,"text":1467},"2026-03-09","VGU Materials Science students Son Tung and Thuy Khanh share reflections on winning competitive DAAD scholarships for master thesis research at OVGU, Germany.","\u002Fimages\u002Facademic_activities\u002Fdaad-scholarships-cover.jpg",{"ja_id":1492,"edited":16,"modules":1493},"13341569",[1494],"team-project","\u002F_activities\u002Fdaad-scholarships",{"title":1370,"description":1489},"_activities\u002Fdaad-scholarships","SxpwPA5e8dDGZ44vkiVz30PNjHRZTgufw_NHyHrDphg",{"id":1500,"title":1501,"body":1502,"category":1177,"date":1579,"description":1580,"extension":14,"highlighted":969,"image":1581,"meta":1582,"navigation":16,"path":1585,"seo":1586,"stem":1587,"__hash__":1588},"activities\u002F_activities\u002Fdaad-scholarships-2024.md","VGU Excellence: Two MSI Students Win Prestigious DAAD Master Thesis Scholarships",{"type":7,"value":1503,"toc":1575},[1504,1507,1514,1517,1527,1529,1533,1536,1546,1548,1558,1560,1564,1567],[937,1505,1501],{"id":1506},"vgu-excellence-two-msi-students-win-prestigious-daad-master-thesis-scholarships",[28,1508,1378,1509,1511,1512,1385],{},[951,1510,990],{}," is proud to announce that two of our outstanding students from the MSI Intake 2024 have been awarded the highly competitive ",[951,1513,1384],{},[28,1515,1516],{},"The scholarship recipients are:",[945,1518,1519,1523],{},[948,1520,1521,1402],{},[951,1522,1401],{},[948,1524,1525,1408],{},[951,1526,1407],{},[1012,1528],{},[1015,1530,1532],{"id":1531},"gateway-to-world-class-research-in-germany","🇩🇪 Gateway to World-Class Research in Germany",[28,1534,1535],{},"The DAAD Scholarship is one of the most prestigious academic funding programs globally, designed to support exceptional international students to conduct research-level work directly at partner institutions in Germany.",[28,1537,1538,1539,1541,1542,1545],{},"For Sơn Tùng and Thuỵ Khanh, this competitive scholarship fully funds a one-year research stay at ",[951,1540,1391],{},", our primary German academic partner. Here, they will carry out their ",[951,1543,1544],{},"master thesis projects"," under joint supervision from VGU and OVGU professors, working in state-of-the-art European materials labs.",[1012,1547],{},[1075,1549,1550],{},[28,1551,1552,1554,1557],{},[1080,1553,1082],{},[951,1555,1556],{},"A Track Record of Success:","\nWinning a DAAD scholarship requires an exemplary academic record, strong scientific aptitude, and a convincing research proposal. This achievement highlights the caliber of VGU's Materials Science curriculum, which aligns perfectly with German engineering standards.",[1012,1559],{},[1015,1561,1563],{"id":1562},"nurturing-globally-competitive-scientists","🌟 Nurturing Globally Competitive Scientists",[28,1565,1566],{},"At VGU, our mission is to act as a direct academic bridge between Vietnam and Germany. By working with international flying faculty and utilizing research-grade equipment, our students are uniquely prepared to succeed on the global stage.",[28,1568,1569,1570,1210,1572,1574],{},"The MSI program warmly congratulates ",[951,1571,1476],{},[951,1573,1479],{}," on this outstanding accomplishment and wishes them the absolute best as they begin their research adventure in Germany!",{"title":10,"searchDepth":11,"depth":11,"links":1576},[1577,1578],{"id":1531,"depth":11,"text":1532},{"id":1562,"depth":11,"text":1563},"2026-01-27","Two VGU Materials Science Master students, Son Tung and Thuy Khanh, win prestigious DAAD scholarships for advanced master thesis research in Germany.","\u002Fimages\u002Facademic_activities\u002Fdaad-scholarships-2024-cover.jpg",{"ja_id":1583,"edited":16,"modules":1584},"13110958",[1494],"\u002F_activities\u002Fdaad-scholarships-2024",{"title":1501,"description":1580},"_activities\u002Fdaad-scholarships-2024","tROuTkkLYQJduAoP9Xwq9XIi5XCFH4nCinUdCCoZnJs",{"id":1590,"title":1591,"body":1592,"category":966,"date":1706,"description":1707,"extension":14,"highlighted":969,"image":1708,"meta":1709,"navigation":16,"path":1713,"seo":1714,"stem":1715,"__hash__":1716},"activities\u002F_activities\u002Fengineering-ceramics.md","Engineering Ceramics: Advanced Structural Ceramics with Flying Faculty Prof. Michael Scheffler",{"type":7,"value":1593,"toc":1702},[1594,1597,1614,1617,1619,1623,1626,1658,1660,1670,1672,1676,1679,1682,1684,1690,1696],[937,1595,1591],{"id":1596},"engineering-ceramics-advanced-structural-ceramics-with-flying-faculty-prof-michael-scheffler",[28,1598,1599,1600,1602,1603,1606,1607,1609,1610,1613],{},"The Master of Science in Materials Science (MSI) program at ",[951,1601,990],{}," was honored to welcome ",[951,1604,1605],{},"Prof. Dr. rer. nat. Michael Scheffler",", Head of the Chair of Non-Metallic Materials at ",[951,1608,1391],{},", Germany, to deliver the advanced ",[1111,1611,1612],{},"Engineering Ceramics"," module.",[28,1615,1616],{},"As one of the most critical classes of structural and functional materials in modern technology, high-performance ceramics are highly valued for their extreme temperature resistance, superior hardness, exceptional chemical stability, and wear resistance. They are the backbone of aerospace turbines, high-speed automotive brakes, deep-sea drills, and biomedical implants.",[1012,1618],{},[1015,1620,1622],{"id":1621},"core-learning-pillars-inside-the-ceramics-module","🔬 Core Learning Pillars: Inside the Ceramics Module",[28,1624,1625],{},"Under the direct supervision of Prof. Scheffler, MSI students dive deep into the microstructural engineering of these robust non-metallic systems:",[945,1627,1628,1634,1640,1646,1652],{},[948,1629,1630,1633],{},[951,1631,1632],{},"Atomic Bonding & Crystal Structures:"," Understanding the underlying ionic and covalent bonds that give ceramics their unmatched hardness and thermal stability.",[948,1635,1636,1639],{},[951,1637,1638],{},"Powder Processing & Sintering Science:"," Exploring industrial powder synthesis, green compact shaping, and high-temperature sintering mechanisms to eliminate porosity.",[948,1641,1642,1645],{},[951,1643,1644],{},"Microstructure-Property Mechanics:"," Correlating grain boundaries and phase distributions with mechanical and thermal performance.",[948,1647,1648,1651],{},[951,1649,1650],{},"Fracture Mechanics & Reliability:"," Mastering mathematical models of ceramic brittle fracture and Weibull statistics to design fail-safe structural elements.",[948,1653,1654,1657],{},[951,1655,1656],{},"Functional Ceramic Systems:"," Studying electrical, magnetic, and optical ceramic applications including solid oxide fuel cells (SOFCs) and advanced sensors.",[1012,1659],{},[1075,1661,1662],{},[28,1663,1664,1666,1669],{},[1080,1665,1082],{},[951,1667,1668],{},"Flying Faculty Advantage:","\nThe MSI program at VGU brings world-renowned German professors directly to Vietnam. Our students receive identical lectures, complete identical exams, and receive the same degree as students studying directly at OVGU Magdeburg in Germany.",[1012,1671],{},[1015,1673,1675],{"id":1674},"bridging-fundamental-science-and-high-tech-industry","🚀 Bridging Fundamental Science and High-Tech Industry",[28,1677,1678],{},"By combining rigorous solid-state chemistry and thermodynamics with practical engineering perspectives, the course empowers our students to design, characterize, and optimize structural materials for the most demanding environments on Earth and beyond.",[28,1680,1681],{},"We express our sincere appreciation to Prof. Michael Scheffler for his dedication and look forward to continuing this fruitful international partnership!",[1012,1683],{},[28,1685,1686],{},[1323,1687],{"alt":1688,"src":1689},"Engineering Ceramics lecture at VGU campus - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fengineering-ceramics-img-1.jpg",[28,1691,1692],{},[1323,1693],{"alt":1694,"src":1695},"Engineering Ceramics lecture at VGU campus - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fengineering-ceramics-img-2.jpg",[28,1697,1698],{},[1323,1699],{"alt":1700,"src":1701},"Engineering Ceramics lecture at VGU campus - Illustration 3","\u002Fimages\u002Facademic_activities\u002Fengineering-ceramics-img-3.png",{"title":10,"searchDepth":11,"depth":11,"links":1703},[1704,1705],{"id":1621,"depth":11,"text":1622},{"id":1674,"depth":11,"text":1675},"2026-03-03","VGU MSI students explore structural ceramics, high-temperature sintering, and advanced aerospace\u002Fautomotive applications with flying faculty Prof. Michael Scheffler.","\u002Fimages\u002Facademic_activities\u002Fengineering-ceramics-cover.jpg",{"ja_id":1710,"edited":16,"modules":1711},"13292685",[1712],"engineering-ceramics","\u002F_activities\u002Fengineering-ceramics",{"title":1591,"description":1707},"_activities\u002Fengineering-ceramics","BHTrr05SSA2qvTlepEURzFD6F4XNO_lowcGjjBMwlJM",{"id":1718,"title":1719,"body":1720,"category":1177,"date":1860,"description":1861,"extension":14,"highlighted":16,"image":1862,"meta":1863,"navigation":16,"path":1867,"seo":1868,"stem":1869,"__hash__":1870},"activities\u002F_activities\u002Fflying-faculty.md","International Learning: VGU Welcomes German Flying Faculty for Core Materials Science Courses",{"type":7,"value":1721,"toc":1853},[1722,1725,1731,1741,1743,1747,1750,1754,1774,1778,1791,1793,1803,1805,1809,1812,1815,1817,1823,1829,1835,1841,1847],[937,1723,1719],{"id":1724},"international-learning-vgu-welcomes-german-flying-faculty-for-core-materials-science-courses",[28,1726,1727,1728,1730],{},"In October 2025, the Master of Science in Materials Science (MSI) program at the ",[951,1729,990],{}," proudly welcomed three distinguished flying faculty members from Germany to lead core teaching and lab-integration modules.",[28,1732,1733,1734,1736,1737,1740],{},"Their arrival represents the robust, structural partnership between VGU, ",[951,1735,1391],{},", and the prestigious ",[951,1738,1739],{},"Fraunhofer Institute (IMWS)",", ensuring our students receive an internationally accredited, top-tier German engineering education directly on our Binh Duong campus.",[1012,1742],{},[1015,1744,1746],{"id":1745},"️-meet-our-german-flying-faculty-core-courses","✈️ Meet Our German Flying Faculty & Core Courses",[28,1748,1749],{},"During this intensive block semester, students from the MSI Intake 2024 and Intake 2025 cohorts engaged with leading experts across metallic and polymer material classes:",[1035,1751,1753],{"id":1752},"️-metals-structural-mechanics","⚙️ Metals & Structural Mechanics",[945,1755,1756,1762,1768],{},[948,1757,1758,1761],{},[951,1759,1760],{},"Dr. Sebastian Hütter"," (Research Associate, OVGU Magdeburg)",[948,1763,1764,1767],{},[951,1765,1766],{},"Dr. Georg Hasemann"," (Chair of Metallic Materials, OVGU Magdeburg)",[948,1769,1770,1773],{},[951,1771,1772],{},"Core Topics:"," High-temperature superalloys, advanced dislocation dynamics, crystal lattice defects, and deformation mechanisms.",[1035,1775,1777],{"id":1776},"advanced-polymer-materials","🧪 Advanced Polymer Materials",[945,1779,1780,1786],{},[948,1781,1782,1785],{},[951,1783,1784],{},"Prof. Dr. rer. nat. Sven Henning"," (Fraunhofer Institute for Microstructure of Materials and Systems IMWS)",[948,1787,1788,1790],{},[951,1789,1772],{}," Polymer physics, molecular structure-property relationships, polymer matrix composites, and microstructural failure analysis.",[1012,1792],{},[1075,1794,1795],{},[28,1796,1797,1799,1802],{},[1080,1798,1082],{},[951,1800,1801],{},"Why Flying Faculty Matter:","\nHaving active German researchers deliver block lectures and supervise laboratory runs ensures VGU students are exposed to current global standards. This close contact also fosters direct relationships, helping students secure funded master thesis spots and research projects in Germany.",[1012,1804],{},[1015,1806,1808],{"id":1807},"building-a-global-scientific-network","🤝 Building a Global Scientific Network",[28,1810,1811],{},"This morning, our faculty members joined the MSI 2024 and MSI 2025 students for a memorable campus photo session, capturing the vibrant spirit of international partnership, scientific curiosity, and academic excellence that defines VGU.",[28,1813,1814],{},"We extend a warm welcome to our German colleagues and wish our students an inspiring and transformative semester!",[1012,1816],{},[28,1818,1819],{},[1323,1820],{"alt":1821,"src":1822},"German Flying Faculty at VGU Campus - Group Photo 1","\u002Fimages\u002Facademic_activities\u002Fflying-faculty-img-1.jpg",[28,1824,1825],{},[1323,1826],{"alt":1827,"src":1828},"German Flying Faculty at VGU Campus - Photo 2","\u002Fimages\u002Facademic_activities\u002Fflying-faculty-img-2.jpg",[28,1830,1831],{},[1323,1832],{"alt":1833,"src":1834},"German Flying Faculty at VGU Campus - Photo 3","\u002Fimages\u002Facademic_activities\u002Fflying-faculty-img-3.jpg",[28,1836,1837],{},[1323,1838],{"alt":1839,"src":1840},"German Flying Faculty at VGU Campus - Photo 4","\u002Fimages\u002Facademic_activities\u002Fflying-faculty-img-4.jpg",[28,1842,1843],{},[1323,1844],{"alt":1845,"src":1846},"German Flying Faculty at VGU Campus - Photo 5","\u002Fimages\u002Facademic_activities\u002Fflying-faculty-img-5.jpg",[28,1848,1849],{},[1323,1850],{"alt":1851,"src":1852},"German Flying Faculty at VGU Campus - Photo 6","\u002Fimages\u002Facademic_activities\u002Fflying-faculty-img-6.jpg",{"title":10,"searchDepth":11,"depth":11,"links":1854},[1855,1859],{"id":1745,"depth":11,"text":1746,"children":1856},[1857,1858],{"id":1752,"depth":1171,"text":1753},{"id":1776,"depth":1171,"text":1777},{"id":1807,"depth":11,"text":1808},"2025-10-27","VGU MSI program welcomes German flying faculty members from OVGU Magdeburg and Fraunhofer IMWS to deliver world-class lectures in metals and polymers.","\u002Fimages\u002Facademic_activities\u002Fflying-faculty-cover.jpg",{"ja_id":1864,"edited":16,"modules":1865},"12581029",[1866,1494],"solid-state-physics","\u002F_activities\u002Fflying-faculty",{"title":1719,"description":1861},"_activities\u002Fflying-faculty","lE7uSfkf7Zzk1qW2wRzGbWQ64pYGGNOQ7_ljsuzExxk",{"id":1872,"title":1873,"body":1874,"category":966,"date":2019,"description":2020,"extension":14,"highlighted":969,"image":2021,"meta":2022,"navigation":16,"path":2026,"seo":2027,"stem":2028,"__hash__":2029},"activities\u002F_activities\u002Ffracture-mechanics.md","Mechanics of Materials: Constitutive Modeling & Fracture Mechanics Student Presentations",{"type":7,"value":1875,"toc":2015},[1876,1879,1886,1889,1891,1895,1898,1930,1932,1941,1943,1947,1954,1974,1977,1979,1985,1991,1997,2003,2009],[937,1877,1873],{"id":1878},"mechanics-of-materials-constitutive-modeling-fracture-mechanics-student-presentations",[28,1880,1881,1882,1885],{},"At the conclusion of the intensive ",[951,1883,1884],{},"Mechanics of Materials and Fracture Mechanics"," module, Master of Science in Materials Science (MSI) students at VGU completed their coursework not through a traditional written exam, but through a series of professional scientific presentations, talks, and open discussions.",[28,1887,1888],{},"This interactive format allowed students to demonstrate their deep understanding of advanced structural behavior, constitutive models, and material failures through active learning and scientific exchange.",[1012,1890],{},[1015,1892,1894],{"id":1893},"️-the-scientific-core-what-our-students-mastered","🛠️ The Scientific Core: What Our Students Mastered",[28,1896,1897],{},"Throughout the module, students explored the mathematical and physical principles governing how solid materials deform and fail under complex stress states:",[945,1899,1900,1906,1912,1918,1924],{},[948,1901,1902,1905],{},[951,1903,1904],{},"Elasticity & Plasticity:"," Formulating stress-strain relations beyond the linear elastic limit to model permanent material deformation.",[948,1907,1908,1911],{},[951,1909,1910],{},"Creep & Rheology:"," Developing time-dependent viscoelastic and viscoplastic models to predict high-temperature structural deformation.",[948,1913,1914,1917],{},[951,1915,1916],{},"Yield & Failure Criteria:"," Implementing classical yield criteria (Von Mises, Tresca) to identify safe loading boundaries.",[948,1919,1920,1923],{},[951,1921,1922],{},"Linear Elastic Fracture Mechanics (LEFM):"," Analyzing singular stress fields near notch boundaries and sharp crack tips.",[948,1925,1926,1929],{},[951,1927,1928],{},"Stress Intensity Factors ($K_I$, $K_$, $K_$):"," Calculating critical energy release rates and identifying conditions for unstable crack propagation.",[1012,1931],{},[1075,1933,1934],{},[28,1935,1936,1938,1940],{},[1080,1937,1082],{},[951,1939,1261],{},"\nCombining pure solid mechanics theory with finite element simulation (FEA) empowers our students to solve critical industrial challenges—from predicting fatigue limits in aircraft wings to avoiding catastrophic brittle fracture in steel structures.",[1012,1942],{},[1015,1944,1946],{"id":1945},"building-key-professional-competencies","🚀 Building Key Professional Competencies",[28,1948,1949,1950,1953],{},"By shifting the final evaluation from a standard exam to a ",[951,1951,1952],{},"presentation-based symposium",", the MSI program reinforces essential professional skills:",[945,1955,1956,1962,1968],{},[948,1957,1958,1961],{},[951,1959,1960],{},"Scientific Communication:"," Translating complex tensor calculus and finite element results into clean, comprehensible slides.",[948,1963,1964,1967],{},[951,1965,1966],{},"Critical Debate:"," Defending modeling choices, boundary conditions, and parameter identifications during peer and faculty Q&A.",[948,1969,1970,1973],{},[951,1971,1972],{},"Collaboration & Teamwork:"," Working in multidisciplinary engineering cohorts to solve multi-variable mechanical problems.",[28,1975,1976],{},"Congratulations to all MSI students for their outstanding presentations and highly active engagement throughout this challenging course!",[1012,1978],{},[28,1980,1981],{},[1323,1982],{"alt":1983,"src":1984},"MSI Students presenting Fracture Mechanics - Illustration 1","\u002Fimages\u002Facademic_activities\u002Ffracture-mechanics-img-1.jpg",[28,1986,1987],{},[1323,1988],{"alt":1989,"src":1990},"MSI Students presenting Fracture Mechanics - Illustration 2","\u002Fimages\u002Facademic_activities\u002Ffracture-mechanics-img-2.jpg",[28,1992,1993],{},[1323,1994],{"alt":1995,"src":1996},"MSI Students presenting Fracture Mechanics - Illustration 3","\u002Fimages\u002Facademic_activities\u002Ffracture-mechanics-img-3.jpg",[28,1998,1999],{},[1323,2000],{"alt":2001,"src":2002},"MSI Students presenting Fracture Mechanics - Illustration 4","\u002Fimages\u002Facademic_activities\u002Ffracture-mechanics-img-4.jpg",[28,2004,2005],{},[1323,2006],{"alt":2007,"src":2008},"MSI Students presenting Fracture Mechanics - Illustration 5","\u002Fimages\u002Facademic_activities\u002Ffracture-mechanics-img-5.jpg",[28,2010,2011],{},[1323,2012],{"alt":2013,"src":2014},"MSI Students presenting Fracture Mechanics - Illustration 6","\u002Fimages\u002Facademic_activities\u002Ffracture-mechanics-img-6.jpg",{"title":10,"searchDepth":11,"depth":11,"links":2016},[2017,2018],{"id":1893,"depth":11,"text":1894},{"id":1945,"depth":11,"text":1946},"2025-05-16","VGU Materials Science Master students successfully conclude their Mechanics of Materials module with advanced constitutive modeling presentations.","\u002Fimages\u002Facademic_activities\u002Ffracture-mechanics-cover.jpg",{"ja_id":2023,"edited":16,"modules":2024},"11301492",[2025],"mechanics-of-materials-and-fracture-mechanics","\u002F_activities\u002Ffracture-mechanics",{"title":1873,"description":2020},"_activities\u002Ffracture-mechanics","U4hWtijBaY0OKB3vpdiI1MWEoOaN8efwO95Ek2tnnP0",{"id":2031,"title":2032,"body":2033,"category":1177,"date":2150,"description":2151,"extension":14,"highlighted":969,"image":2152,"meta":2153,"navigation":16,"path":2156,"seo":2157,"stem":2158,"__hash__":2159},"activities\u002F_activities\u002Fgyss-2026.md","Global Young Scientists Summit 2026: VGU Researcher Represents Vietnam alongside Nobel Laureates",{"type":7,"value":2034,"toc":2146},[2035,2038,2054,2061,2063,2067,2070,2096,2098,2108,2110,2114,2117,2120,2122,2128,2134,2140],[937,2036,2032],{"id":2037},"global-young-scientists-summit-2026-vgu-researcher-represents-vietnam-alongside-nobel-laureates",[28,2039,2040,2041,2043,2044,2046,2047,2050,2051,1385],{},"At the start of 2026, ",[951,2042,1213],{},", lecturer and researcher in the Master of Science in Materials Science (MSI) program at the ",[951,2045,990],{},", was nominated by VGU and the National Foundation for Science and Technology Development (",[951,2048,2049],{},"NAFOSTED",") as one of only four elite representatives from Vietnam to attend the prestigious ",[951,2052,2053],{},"Global Young Scientists Summit (GYSS) 2026",[28,2055,2056,2057,2060],{},"Held at the UTown campus of the ",[951,2058,2059],{},"National University of Singapore (NUS)",", this highly competitive, fully funded event brings together over 400 top young researchers from 57 countries alongside 20 of the world’s most celebrated scientific minds.",[1012,2062],{},[1015,2064,2066],{"id":2065},"direct-engagement-with-global-scientific-luminaries","🌟 Direct Engagement with Global Scientific Luminaries",[28,2068,2069],{},"Over five intensive days of lectures, masterclasses, and small-group discussions, Dr. Duong Hieu Linh had the rare privilege of exchanging research perspectives with Nobel, Turing, and Millennium Technology Prize laureates:",[945,2071,2072,2078,2084,2090],{},[948,2073,2074,2077],{},[951,2075,2076],{},"Prof. Aaron Ciechanover"," (2004 Nobel Prize in Chemistry) — Known for discovering ubiquitin-mediated protein degradation.",[948,2079,2080,2083],{},[951,2081,2082],{},"Prof. Bantval Jayant Baliga"," (2024 Millennium Technology Prize) — Inventor of the Insulated Gate Bipolar Transistor (IGBT), which has revolutionized global energy efficiency.",[948,2085,2086,2089],{},[951,2087,2088],{},"Prof. Joan Rose"," (2016 Stockholm Water Prize) — A world-renowned microbiologist and global leader in water quality assessment.",[948,2091,2092,2095],{},[951,2093,2094],{},"Sir Tim Hunt"," (2001 Nobel Prize in Physiology or Medicine) — Renowned for discovering key regulators of the cell cycle.",[1012,2097],{},[1075,2099,2100],{},[28,2101,2102,2104,2107],{},[1080,2103,1082],{},[951,2105,2106],{},"Connecting VGU to Global Networks:","\nDr. Duong Hieu Linh's nomination reflects VGU's growing international scientific footprint. Participating in GYSS enables our faculty to bring home cutting-edge insights, establishing direct collaboration bridges that benefit our master's students' thesis projects and international PhD pathways.",[1012,2109],{},[1015,2111,2113],{"id":2112},"accelerating-advanced-research-at-vgu","🚀 Accelerating Advanced Research at VGU",[28,2115,2116],{},"Dr. Linh looks forward to integrating these fresh global perspectives and collaborative opportunities into the MSI program's research initiatives—particularly at the intersection of biocalorimetry, sustainable polymer characterization, and the circular bioeconomy.",[28,2118,2119],{},"We congratulate Dr. Duong Hieu Linh on this exceptional academic honor, representing both VGU and Vietnam on the global scientific stage!",[1012,2121],{},[28,2123,2124],{},[1323,2125],{"alt":2126,"src":2127},"Dr. Linh Duong with Prof. Joan Rose at GYSS 2026","\u002Fimages\u002Facademic_activities\u002Fgyss-2026-img-1.jpg",[28,2129,2130],{},[1323,2131],{"alt":2132,"src":2133},"Dr. Linh Duong with Sir Tim Hunt at GYSS 2026","\u002Fimages\u002Facademic_activities\u002Fgyss-2026-img-2.jpg",[28,2135,2136],{},[1323,2137],{"alt":2138,"src":2139},"Dr. Linh Duong in discussion with Nobel Laureates","\u002Fimages\u002Facademic_activities\u002Fgyss-2026-img-3.jpg",[28,2141,2142],{},[1323,2143],{"alt":2144,"src":2145},"Global Young Scientists Summit 2026 Opening Session","\u002Fimages\u002Facademic_activities\u002Fgyss-2026-img-4.jpg",{"title":10,"searchDepth":11,"depth":11,"links":2147},[2148,2149],{"id":2065,"depth":11,"text":2066},{"id":2112,"depth":11,"text":2113},"2026-01-15","Dr. Duong Hieu Linh represents VGU and Vietnam at the Global Young Scientists Summit 2026, engaging with Nobel, Turing, and Millennium Technology Prize laureates.","\u002Fimages\u002Facademic_activities\u002Fgyss-2026-cover.jpg",{"ja_id":2154,"edited":16,"modules":2155},"13072137",[1494],"\u002F_activities\u002Fgyss-2026",{"title":2032,"description":2151},"_activities\u002Fgyss-2026","6hWb3FptGPSYAtc2Mt1nQ2mQztK58ZFQFX2PI-_g2cg",{"id":2161,"title":2162,"body":2163,"category":2327,"date":2328,"description":2329,"extension":14,"highlighted":969,"image":2330,"meta":2331,"navigation":16,"path":2335,"seo":2336,"stem":2337,"__hash__":2338},"activities\u002F_activities\u002Fheat-treatment.md","Lab Training: Quenching, Tempering, and Aluminum Precipitation Hardening",{"type":7,"value":2164,"toc":2319},[2165,2168,2175,2178,2180,2184,2187,2191,2222,2226,2256,2260,2272,2276,2288,2290,2300,2302,2305,2307,2313],[937,2166,2162],{"id":2167},"lab-training-quenching-tempering-and-aluminum-precipitation-hardening",[28,2169,2170,2171,2174],{},"As a core practical component of the ",[951,2172,2173],{},"Heat Treatment"," course, students from the MSI Intake 2024 and Intake 2025 cohorts executed a series of intensive metallurgical experiments in our state-of-the-art materials characterization labs.",[28,2176,2177],{},"These experiments are designed to directly bridge theoretical phase transformations with real-world mechanical performance, showing students how heat and cooling media can be used to engineer exact metal microstructures.",[1012,2179],{},[1015,2181,2183],{"id":2182},"core-metallurgical-lab-exercises","🔬 Core Metallurgical Lab Exercises",[28,2185,2186],{},"Students rotated through four distinct experimental modules, utilizing professional furnace systems, polishing stations, and hardness testers:",[1035,2188,2190],{"id":2189},"️-exercise-1-hardening-tempering-of-c45-carbon-steel","⚙️ Exercise 1: Hardening & Tempering of C45 Carbon Steel",[945,2192,2193,2199,2216],{},[948,2194,2195,2198],{},[951,2196,2197],{},"Core Activity:"," Heating C45 specimens into the single-phase austenite region, quenching to lock in a fully martensitic structure, followed by tempering runs at varied temperatures.",[948,2200,2201,2204,2205,2208,2209,2212,2213,1385],{},[951,2202,2203],{},"Goal:"," Analyzing the structural transition from ",[951,2206,2207],{},"soft annealed ferrite-pearlite"," to ",[951,2210,2211],{},"hard brittle martensite",", and finally to ",[951,2214,2215],{},"ductile tempered martensite",[948,2217,2218,2221],{},[951,2219,2220],{},"Assessment:"," Quantitative evaluation of how tempering temperature systematically lowers hardness while restoring toughness.",[1035,2223,2225],{"id":2224},"exercise-2-influence-of-quenching-media-on-critical-cooling-rates","🌊 Exercise 2: Influence of Quenching Media on Critical Cooling Rates",[945,2227,2228,2236,2245],{},[948,2229,2230,1158,2233,1385],{},[951,2231,2232],{},"Quenching Media Tested:",[1111,2234,2235],{},"Air, Oil, and Water",[948,2237,2238,2240,2241,2244],{},[951,2239,2203],{}," Exploring the thermodynamic concept of the ",[951,2242,2243],{},"critical cooling rate"," required to bypass the pearlite\u002Fbainite noses on Time-Temperature-Transformation (TTT) diagrams.",[948,2246,2247,2249,2250,1210,2253,1385],{},[951,2248,2220],{}," Correlating cooling speeds directly to microstructure and hardness, while analyzing structural risks such as ",[951,2251,2252],{},"residual stresses",[951,2254,2255],{},"quenching cracks",[1035,2257,2259],{"id":2258},"️-exercise-3-hardenability-of-alloyed-steels-c45-vs-42crmo4","⛓️ Exercise 3: Hardenability of Alloyed Steels (C45 vs. 42CrMo4)",[945,2261,2262,2267],{},[948,2263,2264,2266],{},[951,2265,2203],{}," Subjecting plain carbon C45 and low-alloy 42CrMo4 structural steel to identical quenching runs.",[948,2268,2269,2271],{},[951,2270,2220],{}," Evaluating how chromium ($Cr$) and molybdenum ($Mo$) retard diffusion, shifting TTT curves and allowing thick parts to harden completely through. Students gain critical insights into material selection and engineering trade-offs.",[1035,2273,2275],{"id":2274},"exercise-4-precipitation-hardening-of-lightweight-aluminum-alloys","🧪 Exercise 4: Precipitation Hardening of Lightweight Aluminum Alloys",[945,2277,2278,2283],{},[948,2279,2280,2282],{},[951,2281,2203],{}," Performing solution annealing followed by rapid quenching and artificial\u002Fnatural aging of high-strength aluminum specimens.",[948,2284,2285,2287],{},[951,2286,2220],{}," Plotting age-hardening curves to monitor how coherent nanometer-sized precipitates pin dislocations, dramatically increasing the yield strength of lightweight structures.",[1012,2289],{},[1075,2291,2292],{},[28,2293,2294,2296,2299],{},[1080,2295,1082],{},[951,2297,2298],{},"Why this is critical for MSI graduates:","\nHeat treatment is the heart of physical metallurgy. Gaining hands-on control over microstructures via furnaces and hardness testing prepares VGU graduates to step directly into high-tech R&D, aerospace, and advanced manufacturing roles globally.",[1012,2301],{},[28,2303,2304],{},"We congratulate our students on their active participation and excellent research-grade reports!",[1012,2306],{},[28,2308,2309],{},[1323,2310],{"alt":2311,"src":2312},"VGU MSI Cohorts Quenching Steel - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fheat-treatment-img-1.jpg",[28,2314,2315],{},[1323,2316],{"alt":2317,"src":2318},"VGU MSI Students discussing hardness results - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fheat-treatment-img-2.jpg",{"title":10,"searchDepth":11,"depth":11,"links":2320},[2321],{"id":2182,"depth":11,"text":2183,"children":2322},[2323,2324,2325,2326],{"id":2189,"depth":1171,"text":2190},{"id":2224,"depth":1171,"text":2225},{"id":2258,"depth":1171,"text":2259},{"id":2274,"depth":1171,"text":2275},"Lab Works","2025-12-12","VGU MSI Master students conduct hands-on heat treatment lab training, practicing C45 steel hardening, tempering, quenching, and aluminum precipitation hardening.","\u002Fimages\u002Facademic_activities\u002Fheat-treatment-cover.jpg",{"ja_id":2332,"edited":16,"modules":2333},"12883878",[2334],"heat-treatment-of-materials","\u002F_activities\u002Fheat-treatment",{"title":2162,"description":2329},"_activities\u002Fheat-treatment","aBob3mnXdQ4fHERxL7Nnw_tIJrIs3fvdimdFl4yyO9g",{"id":2340,"title":2341,"body":2342,"category":1356,"date":2485,"description":2486,"extension":14,"highlighted":969,"image":2487,"meta":2488,"navigation":16,"path":2491,"seo":2492,"stem":2493,"__hash__":2494},"activities\u002F_activities\u002Fknauf-trip.md","Excursion to Knauf Vietnam: Automated Gypsum Manufacturing & Acoustic Engineering",{"type":7,"value":2343,"toc":2481},[2344,2347,2357,2364,2366,2370,2373,2397,2399,2409,2411,2415,2422,2443,2446,2449,2451,2457,2463,2469,2475],[937,2345,2341],{"id":2346},"excursion-to-knauf-vietnam-automated-gypsum-manufacturing-acoustic-engineering",[28,2348,2349,2350,2352,2353,2356],{},"On December 9, 2025, students from the MSI Intake 2024 and Intake 2025 cohorts at the ",[951,2351,990],{}," conducted an academic field excursion to ",[951,2354,2355],{},"Knauf Vietnam’s state-of-the-art production facility"," in Nha Be, Ho Chi Minh City.",[28,2358,2359,2360,2363],{},"As a key part of our ",[1111,2361,2362],{},"Master of Science in Materials Science (MSI)"," curriculum, the trip provided students with an immersion into the industrial chemistry, thermodynamics, and high-precision automation powering one of the world's premier gypsum wallboard manufacturers.",[1012,2365],{},[1015,2367,2369],{"id":2368},"️-from-chemistry-to-construction-technical-focus","🏛️ From Chemistry to Construction: Technical Focus",[28,2371,2372],{},"Knauf engineers guided the students through the entire automated manufacturing process, showing the physical chemistry behind modern building elements:",[945,2374,2375,2381,2387],{},[948,2376,2377,2380],{},[951,2378,2379],{},"Porosity & foaming chemistry:"," How surfactant-based foam stabilizers, fiberglass reinforcements, and chemical additives are blended with calcium sulfate hemihydrate to cast extremely lightweight but highly durable panels.",[948,2382,2383,2386],{},[951,2384,2385],{},"Thermodynamics of fire-resistance:"," Examining the endothermic calcination reaction that makes gypsum fire-resistant. When exposed to fire, the bound crystal water in calcium sulfate dihydrate ($CaSO_4 \\cdot 2H_2O$) evaporates, keeping the structural system cool.",[948,2388,2389,2392,2393,2396],{},[951,2390,2391],{},"Acoustic Physics:"," Applying the ",[951,2394,2395],{},"mass-spring-mass principle"," to see how modern gypsum multi-layered wall assemblies absorb acoustic energy and dampen noise transmission.",[1012,2398],{},[1075,2400,2401],{},[28,2402,2403,2405,2408],{},[1080,2404,1082],{},[951,2406,2407],{},"Industrial Immersion Advantage:","\nSeeing a continuous, high-speed automated production line in action highlights how critical precise dosage, water-binder ratios, and high-temperature belt drying are for maintaining German quality standards.",[1012,2410],{},[1015,2412,2414],{"id":2413},"️-hands-on-autoclaved-construction-practice","🏗️ Hands-On Autoclaved Construction Practice",[28,2416,2417,2418,2421],{},"Following the plant tour, VGU MSI students engaged in an interactive ",[951,2419,2420],{},"hands-on workshop"," led by Knauf technical instructors:",[2423,2424,2425,2431,2437],"ol",{},[948,2426,2427,2430],{},[951,2428,2429],{},"Building Metal Stud Frames:"," Laying out and erecting standard steel wall channels under German drywall guidelines.",[948,2432,2433,2436],{},[951,2434,2435],{},"Board Mounting & Jointing:"," Applying drywall panels, taping, and mudding joints to master industrial finishing.",[948,2438,2439,2442],{},[951,2440,2441],{},"Quality & Fit Checks:"," Inspecting the structural robustness, alignments, and joint stability of their completed mock wall assemblies.",[28,2444,2445],{},"This excellent exercise allowed students to immediately connect materials chemistry with civil engineering and real-world construction practices.",[28,2447,2448],{},"We express our sincere thanks to Knauf Vietnam for welcoming our students, and for providing a lunch session to discuss joint thesis projects and R&D pathways!",[1012,2450],{},[28,2452,2453],{},[1323,2454],{"alt":2455,"src":2456},"Knauf factory floor and automated dosing system - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fknauf-trip-img-1.jpg",[28,2458,2459],{},[1323,2460],{"alt":2461,"src":2462},"MSI Students hands-on building drywall under German standards - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fknauf-trip-img-2.jpg",[28,2464,2465],{},[1323,2466],{"alt":2467,"src":2468},"Instructors demonstrating jointing compound properties - Illustration 3","\u002Fimages\u002Facademic_activities\u002Fknauf-trip-img-3.jpg",[28,2470,2471],{},[1323,2472],{"alt":2473,"src":2474},"Drywall framing layout and acoustic insulation installation - Illustration 4","\u002Fimages\u002Facademic_activities\u002Fknauf-trip-img-4.jpg",[28,2476,2477],{},[1323,2478],{"alt":2479,"src":2480},"VGU MSI cohort group photo at Knauf Vietnam HQ - Illustration 5","\u002Fimages\u002Facademic_activities\u002Fknauf-trip-img-5.jpg",{"title":10,"searchDepth":11,"depth":11,"links":2482},[2483,2484],{"id":2368,"depth":11,"text":2369},{"id":2413,"depth":11,"text":2414},"2025-12-11","Discover how VGU Materials Science Master students explore automated lightweight gypsum manufacturing on a field trip to Knauf Vietnam in Nha Be.","\u002Fimages\u002Facademic_activities\u002Fknauf-trip-cover.jpg",{"ja_id":2489,"edited":16,"modules":2490},"12876662",[1363],"\u002F_activities\u002Fknauf-trip",{"title":2341,"description":2486},"_activities\u002Fknauf-trip","eKmzqulyoB4pBklibePzToF4L-1jOvy2gA35Pa8rr8E",{"id":2496,"title":2497,"body":2498,"category":2327,"date":2604,"description":2605,"extension":14,"highlighted":969,"image":2606,"meta":2607,"navigation":16,"path":2611,"seo":2612,"stem":2613,"__hash__":2614},"activities\u002F_activities\u002Fmicro-nano-scale.md","Materials Characterization: High-Resolution Imaging from Micro to Nano Scale",{"type":7,"value":2499,"toc":2600},[2500,2503,2511,2521,2523,2527,2530,2556,2558,2568,2570,2574,2577,2580,2582,2588,2594],[937,2501,2497],{"id":2502},"materials-characterization-high-resolution-imaging-from-micro-to-nano-scale",[28,2504,2505,2506,2508,2509,1613],{},"To engineer advanced materials, we must first understand how they are built at the atomic, micro, and nano scales. Students in the Master of Science in Materials Science (MSI) program at ",[951,2507,990],{}," recently tackled this challenge in the advanced ",[951,2510,354],{},[28,2512,2513,2514,2517,2518,2520],{},"The course was taught by ",[951,2515,2516],{},"Prof. Dr. Franziska Scheffler",", Head of the Chair of Technical Chemistry (Lehrstuhl für Technische Chemie) at ",[951,2519,1391],{},", Germany, delivering high-level German university instruction directly to our Binh Duong campus.",[1012,2522],{},[1015,2524,2526],{"id":2525},"core-characterization-techniques-mastered","🔬 Core Characterization Techniques Mastered",[28,2528,2529],{},"Under the expert guidance of Prof. Scheffler, students explored the fundamental principles, quantum mechanics, and instrumentation behind the most powerful analytical tools in modern materials science:",[945,2531,2532,2538,2544,2550],{},[948,2533,2534,2537],{},[951,2535,2536],{},"Scanning Electron Microscopy (SEM):"," Utilizing focused electron beams to capture stunning microstructural topography and cross-sectional morphology.",[948,2539,2540,2543],{},[951,2541,2542],{},"X-Ray Diffraction (XRD):"," Applying Bragg's Law to determine crystal structures, lattice parameters, and phase compositions of powders and bulk specimens.",[948,2545,2546,2549],{},[951,2547,2548],{},"Advanced Spectroscopy:"," Using molecular vibrations and energy-dispersive X-ray spectroscopy (EDS) to map chemical compositions and trace elements.",[948,2551,2552,2555],{},[951,2553,2554],{},"Structure-Property Linkage:"," Training students to connect processing parameters with the resulting micro\u002Fnanostructures and macroscopic properties.",[1012,2557],{},[1075,2559,2560],{},[28,2561,2562,2564,2567],{},[1080,2563,1082],{},[951,2565,2566],{},"Why this matters for your Career:","\nMaterials characterization is a foundational skill for both scientific research and industrial quality control. VGU MSI graduates gain hands-on access to research-grade SEM and XRD equipment, preparing them to enter R&D, metallurgy, semiconductor, and polymer engineering fields globally.",[1012,2569],{},[1015,2571,2573],{"id":2572},"a-research-driven-global-degree","🌎 A Research-Driven, Global Degree",[28,2575,2576],{},"At VGU, we believe that world-class engineering requires global collaboration. By learning directly from flying faculty like Prof. Franziska Scheffler, our students establish direct networks with German universities, opening pathways for fully-funded master thesis research, doctoral scholarships, and European careers.",[28,2578,2579],{},"We thank Prof. Scheffler for her inspiring course and her commitment to fostering the next generation of materials engineers in Vietnam!",[1012,2581],{},[28,2583,2584],{},[1323,2585],{"alt":2586,"src":2587},"Prof. Franziska Scheffler lecturing Materials Characterization - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fmicro-nano-scale-img-1.jpg",[28,2589,2590],{},[1323,2591],{"alt":2592,"src":2593},"MSI Cohort in discussion about XRD patterns - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fmicro-nano-scale-img-2.jpg",[28,2595,2596],{},[1323,2597],{"alt":2598,"src":2599},"High-resolution micro-nano scale structures - Illustration 3","\u002Fimages\u002Facademic_activities\u002Fmicro-nano-scale-img-3.jpg",{"title":10,"searchDepth":11,"depth":11,"links":2601},[2602,2603],{"id":2525,"depth":11,"text":2526},{"id":2572,"depth":11,"text":2573},"2026-03-11","VGU MSI students explore SEM, XRD, and spectroscopic characterization with flying faculty Prof. Franziska Scheffler from OVGU Magdeburg.","\u002Fimages\u002Facademic_activities\u002Fmicro-nano-scale-cover.jpg",{"ja_id":2608,"edited":16,"modules":2609},"13367608",[2610],"micro-nano-fabrication-technology","\u002F_activities\u002Fmicro-nano-scale",{"title":2497,"description":2605},"_activities\u002Fmicro-nano-scale","8K4fVxSuhi3uVsab_CnHaz6ysYwFxCk2NPrFyoa7JhM",{"id":2616,"title":2617,"body":2618,"category":2327,"date":2722,"description":2723,"extension":14,"highlighted":969,"image":2724,"meta":2725,"navigation":16,"path":2728,"seo":2729,"stem":2730,"__hash__":2731},"activities\u002F_activities\u002Fnon-metallic-binders.md","Lab Training: Cement & Concrete Mix Design and Early-Stage Hydration with Prof. Thomas Bier",{"type":7,"value":2619,"toc":2718},[2620,2623,2628,2634,2636,2640,2643,2669,2671,2680,2682,2686,2689,2692,2694,2700,2706,2712],[937,2621,2617],{"id":2622},"lab-training-cement-concrete-mix-design-and-early-stage-hydration-with-prof-thomas-bier",[28,2624,2625,2626,1613],{},"On January 30, 2026, students of the Master of Science in Materials Science (MSI) program at VGU participated in a rigorous, hands-on laboratory session for the ",[951,2627,1202],{},[28,2629,2630,2631,2633],{},"Supervised by ",[951,2632,1209],{},", our flying faculty from Germany, the session allowed students to immediately translate theoretical thermodynamics of binder hydration into physical cement and mortar formulations.",[1012,2635],{},[1015,2637,2639],{"id":2638},"practicing-modern-binder-engineering","🔬 Practicing Modern Binder Engineering",[28,2641,2642],{},"Operating in VGU's advanced concrete technology laboratory, student groups conducted key industrial characterization and mixing steps:",[2423,2644,2645,2651,2657,2663],{},[948,2646,2647,2650],{},[951,2648,2649],{},"High-Precision Proportioning:"," Calculating and weighing water-to-cement ($w\u002Fc$) ratios to control mechanical strength and porosity.",[948,2652,2653,2656],{},[951,2654,2655],{},"Homogeneous Mixing:"," Mixing dry cement, fine aggregates, and functional admixtures to achieve targeted rheological properties.",[948,2658,2659,2662],{},[951,2660,2661],{},"Workability & Flow Assessment:"," Utilizing flow tables to measure slump, workability, and the yield stress of fresh mortar mixtures.",[948,2664,2665,2668],{},[951,2666,2667],{},"Casting & Setting Analysis:"," Casting fresh mixtures into professional standard molds, monitoring setting behavior, and observing early-stage microstructure consolidation.",[1012,2670],{},[1075,2672,2673],{},[28,2674,2675,2677,2679],{},[1080,2676,1082],{},[951,2678,1261],{},"\nCement is not just a building material; it is a complex, chemically active mineral system. Understanding how superplasticizers and accelerators alter early-stage calcium-silicate-hydrate (C-S-H) gel growth is key to designing high-performance concretes.",[1012,2681],{},[1015,2683,2685],{"id":2684},"building-real-world-competency","🚀 Building Real-World Competency",[28,2687,2688],{},"Through these practical, collaborative exercises, VGU students gain deep, quantitative insights into concrete mix design, microstructural development, and durability control.",[28,2690,2691],{},"This hands-on training forms a strong foundation for future research in green concrete formulations, sustainable geopolymers, and advanced binder materials—preparing our graduates to lead construction materials R&D both in academia and global industries.",[1012,2693],{},[28,2695,2696],{},[1323,2697],{"alt":2698,"src":2699},"MSI Students weighing cement binder components - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fnon-metallic-binders-img-1.jpg",[28,2701,2702],{},[1323,2703],{"alt":2704,"src":2705},"Mixing concrete mortar with Prof. Thomas Bier - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fnon-metallic-binders-img-2.jpg",[28,2707,2708],{},[1323,2709],{"alt":2710,"src":2711},"Flow table slump testing for mortar workability - Illustration 3","\u002Fimages\u002Facademic_activities\u002Fnon-metallic-binders-img-3.jpg",[28,2713,2714],{},[1323,2715],{"alt":2716,"src":2717},"Casting fresh mortar specimens in steel molds - Illustration 4","\u002Fimages\u002Facademic_activities\u002Fnon-metallic-binders-img-4.jpg",{"title":10,"searchDepth":11,"depth":11,"links":2719},[2720,2721],{"id":2638,"depth":11,"text":2639},{"id":2684,"depth":11,"text":2685},"2026-02-04","VGU MSI Master students practice cement mixing, casting, and workability testing during hands-on Inorganic Binders lab training under Prof. Thomas Bier.","\u002Fimages\u002Facademic_activities\u002Fnon-metallic-binders-cover.jpg",{"ja_id":2726,"edited":16,"modules":2727},"13138517",[1363],"\u002F_activities\u002Fnon-metallic-binders",{"title":2617,"description":2723},"_activities\u002Fnon-metallic-binders","wLdfRwDK9rrtJWAgaHWZ_dqrFbNv9igy1iVe5nfWbSY",{"id":2733,"title":2734,"body":2735,"category":2327,"date":2328,"description":2898,"extension":14,"highlighted":16,"image":2899,"meta":2900,"navigation":16,"path":2903,"seo":2904,"stem":2905,"__hash__":2906},"activities\u002F_activities\u002Fpolymer-labs.md","Lab Training: Polymer Tensile Testing, Rheometry, & SEM Microstructure",{"type":7,"value":2736,"toc":2891},[2737,2740,2747,2755,2757,2761,2764,2768,2796,2800,2829,2833,2854,2856,2866,2868,2871,2873,2879,2885],[937,2738,2734],{"id":2739},"lab-training-polymer-tensile-testing-rheometry-sem-microstructure",[28,2741,2742,2743,2746],{},"Hands-on laboratory training is the core of our ",[951,2744,2745],{},"Polymer Materials"," module. Students of the MSI Intake 2024 cohort recently successfully completed a series of advanced, practical lab sessions designed to characterize the mechanical, rheological, and morphological properties of polymeric macromolecules.",[28,2748,2630,2749,2751,2752,2754],{},[951,2750,1784],{}," from the ",[951,2753,1739],{},", Germany, students utilized high-end research equipment to connect theoretical polymer chemistry with macroscopic engineering behavior.",[1012,2756],{},[1015,2758,2760],{"id":2759},"the-three-core-characterization-pillars","🔬 The Three Core Characterization Pillars",[28,2762,2763],{},"Students worked in specialized lab groups, rotating through three high-impact experimental stations:",[1035,2765,2767],{"id":2766},"activity-1-mechanical-testing-constitutive-deformation","📊 Activity 1: Mechanical Testing & Constitutive Deformation",[945,2769,2770,2776,2790],{},[948,2771,2772,2775],{},[951,2773,2774],{},"Core Action:"," Conducting tensile testing using VGU's Universal Testing Machine (UTM) on standard polymer specimens.",[948,2777,2778,2781,2782,2785,2786,2789],{},[951,2779,2780],{},"Academic Topics:"," Analyzing elastic and plastic deformation, plotting ",[951,2783,2784],{},"stress-strain curves",", and calculating ",[951,2787,2788],{},"Young's modulus",", yield strength, and elongation at break.",[948,2791,2792,2795],{},[951,2793,2794],{},"Relevance:"," Understanding mechanical limits to predict structural reliability under external loads.",[1035,2797,2799],{"id":2798},"activity-2-rheometry-polymer-melt-flow-behavior","🌊 Activity 2: Rheometry & Polymer Melt Flow Behavior",[945,2801,2802,2811,2824],{},[948,2803,2804,2806,2807,2810],{},[951,2805,2774],{}," Operating a high-precision rotational ",[951,2808,2809],{},"rheometer"," to measure viscosity changes.",[948,2812,2813,2815,2816,2819,2820,2823],{},[951,2814,2780],{}," Monitoring viscosity dependence on temperature and ",[951,2817,2818],{},"shear rate",", and analyzing ",[951,2821,2822],{},"non-Newtonian shear-thinning"," behavior.",[948,2825,2826,2828],{},[951,2827,2794],{}," Optimizing polymer melt flow for automated manufacturing processes like injection molding and extrusion.",[1035,2830,2832],{"id":2831},"️-activity-3-high-resolution-imaging-via-scanning-electron-microscopy-sem","🖼️ Activity 3: High-Resolution Imaging via Scanning Electron Microscopy (SEM)",[945,2834,2835,2844,2849],{},[948,2836,2837,2839,2840,2843],{},[951,2838,2774],{}," Preparing samples and conducting high-vacuum ",[951,2841,2842],{},"SEM imaging"," on polymer fracture surfaces.",[948,2845,2846,2848],{},[951,2847,2780],{}," Operating electron optics at the micro-nano scale, observing morphological features, micro-voids, and micro-cracks.",[948,2850,2851,2853],{},[951,2852,2794],{}," Understanding morphological features and analyzing structural failures to design tougher, more durable polymer blends.",[1012,2855],{},[1075,2857,2858],{},[28,2859,2860,2862,2865],{},[1080,2861,1082],{},[951,2863,2864],{},"VGU Research Edge:","\nHaving a world-leading expert from the Fraunhofer Institute (IMWS) guide students through SEM fracture analysis and rheometry ensures our graduates master characterization techniques at a world-class level.",[1012,2867],{},[28,2869,2870],{},"We congratulate our MSI 2024 cohort for their outstanding laboratory reports and rigorous analytical work throughout the course!",[1012,2872],{},[28,2874,2875],{},[1323,2876],{"alt":2877,"src":2878},"Universal Testing Machine tensile procedure - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fpolymer-labs-img-1.jpg",[28,2880,2881],{},[1323,2882],{"alt":2883,"src":2884},"Rotational rheometer flow measurement practice - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fpolymer-labs-img-2.jpg",[28,2886,2887],{},[1323,2888],{"alt":2889,"src":2890},"Scanning Electron Microscopy (SEM) morphology imaging - Illustration 3","\u002Fimages\u002Facademic_activities\u002Fpolymer-labs-img-3.jpg",{"title":10,"searchDepth":11,"depth":11,"links":2892},[2893],{"id":2759,"depth":11,"text":2760,"children":2894},[2895,2896,2897],{"id":2766,"depth":1171,"text":2767},{"id":2798,"depth":1171,"text":2799},{"id":2831,"depth":1171,"text":2832},"VGU MSI students perform advanced polymer characterization using tensile testing, rheometry flow analysis, and SEM imaging under Prof. Sven Henning.","\u002Fimages\u002Facademic_activities\u002Fpolymer-labs-cover.jpg",{"ja_id":2901,"edited":16,"modules":2902},"12884225",[1184],"\u002F_activities\u002Fpolymer-labs",{"title":2734,"description":2898},"_activities\u002Fpolymer-labs","p1CeThZApS8SQVqfCohNMyHnkv4rPPcSJoUez6yD2o4",{"id":2908,"title":2909,"body":2910,"category":2327,"date":3012,"description":3013,"extension":14,"highlighted":969,"image":3014,"meta":3015,"navigation":16,"path":3020,"seo":3021,"stem":3022,"__hash__":3023},"activities\u002F_activities\u002Fpowder-metallurgy.md","Lab Highlight: Powder Metallurgy, Sintering, & Characterization of High-Temp Mo-Si-B Alloys",{"type":7,"value":2911,"toc":3008},[2912,2915,2926,2933,2935,2939,2942,2976,2978,2988,2990,2994,2997,3000,3002],[937,2913,2909],{"id":2914},"lab-highlight-powder-metallurgy-sintering-characterization-of-high-temp-mo-si-b-alloys",[28,2916,2917,2918,2921,2922,2925],{},"In the intensive ",[951,2919,2920],{},"Research Lab: Properties, Testing, and Analytics"," module, Master of Science in Materials Science (MSI) students at VGU engaged in a hands-on laboratory series focused on ",[951,2923,2924],{},"Powder Metallurgy","—a vital manufacturing technology for producing components from high-melting-point materials.",[28,2927,2928,2929,2932],{},"The lab series tasked students with synthesizing and analyzing refractory ",[951,2930,2931],{},"Molybdenum-Silicon-Vanadium-Boron (Mo-V-Si-B)"," alloys, which are designed for extreme aerospace and turbine environments.",[1012,2934],{},[1015,2936,2938],{"id":2937},"sintering-mechanical-alloying-process","🔬 Sintering & Mechanical Alloying Process",[28,2940,2941],{},"Operating research-grade mechanical alloying equipment, students executed key steps in the powder metallurgy pipeline:",[945,2943,2944,2954,2960,2966],{},[948,2945,2946,2949,2950,2953],{},[951,2947,2948],{},"Mechanical Alloying via Ball Milling:"," Preparing a high-purity Mo-V-Si-B powder mixture and milling specimens at varied intervals (",[951,2951,2952],{},"1 hour, 2 hours, 5 hours, and 20 hours",") to study particle refinement and lattice deformation.",[948,2955,2956,2959],{},[951,2957,2958],{},"Particle Size Dynamic Light Scattering (DLS):"," Monitoring the systematic reduction in particle sizes and the development of high surface energies as a function of milling time.",[948,2961,2962,2965],{},[951,2963,2964],{},"X-Ray Diffraction (XRD) Lattice Scans:"," Tracking phase transitions, lattice expansion, and the creation of supersaturated solid solutions due to intense mechanical forces.",[948,2967,2968,2971,2972,2975],{},[951,2969,2970],{},"Morphology Mapping via SEM:"," Characterizing particle shape transitions—observing the formation of distinct ",[951,2973,2974],{},"lamellar (layered) microstructures"," during the initial 1–2 hours of milling.",[1012,2977],{},[1075,2979,2980],{},[28,2981,2982,2984,2987],{},[1080,2983,1082],{},[951,2985,2986],{},"Scientific Finding:","\nPowder metallurgy allows us to engineer alloys far beyond their equilibrium limits. In this lab, XRD scans successfully proved the insertion of Vanadium into the Molybdenum lattice, while SEM microscopy confirmed optimal particle welding and mechanical consolidation during the early milling hours.",[1012,2989],{},[1015,2991,2993],{"id":2992},"equipping-future-advanced-metallurgy-experts","🚀 Equipping Future Advanced Metallurgy Experts",[28,2995,2996],{},"By analyzing their own XRD and SEM data, VGU students master advanced materials characterization and processing.",[28,2998,2999],{},"This practical training lays the groundwork for high-impact master's theses and prepares our graduates to enter specialized metallurgy, aerospace turbine R&D, and advanced additive manufacturing industries globally!",[1012,3001],{},[28,3003,3004],{},[1323,3005],{"alt":3006,"src":3007},"VGU MSI students preparing Mo-Si-B alloy powders - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fpowder-metallurgy-img-1.png",{"title":10,"searchDepth":11,"depth":11,"links":3009},[3010,3011],{"id":2937,"depth":11,"text":2938},{"id":2992,"depth":11,"text":2993},"2025-06-25","MSI Master students synthesize high-temperature Mo-V-Si-B alloys, practicing ball milling, particle sizing, XRD lattice scans, and SEM morphology.","\u002Fimages\u002Facademic_activities\u002Fpowder-metallurgy-cover.jpg",{"ja_id":3016,"edited":16,"modules":3017},"11595979",[3018,3019],"powder-metallurgy-and-sintered-materials","materials-characterization","\u002F_activities\u002Fpowder-metallurgy",{"title":2909,"description":3013},"_activities\u002Fpowder-metallurgy","uk9kvi7jWEOxGQIHhrYprV7yW7BoBsGTqLABDX4NwQ4",{"id":3025,"title":3026,"body":3027,"category":966,"date":3145,"description":3146,"extension":14,"highlighted":969,"image":3147,"meta":3148,"navigation":16,"path":3151,"seo":3152,"stem":3153,"__hash__":3154},"activities\u002F_activities\u002Fprogram-overview.md","Seminar Highlight: VGU-OVGU Metallic Materials Research & Flying Faculty Overview",{"type":7,"value":3028,"toc":3138},[3029,3032,3041,3048,3050,3054,3057,3061,3075,3079,3091,3095,3107,3109,3119,3121,3124,3126,3132],[937,3030,3026],{"id":3031},"seminar-highlight-vgu-ovgu-metallic-materials-research-flying-faculty-overview",[28,3033,3034,3035,3037,3038,1385],{},"As VGU's Materials Science & Innovation (MSI) cohort concluded their core metallurgy modules, students joined a specialized academic seminar introducing current research portfolios at ",[951,3036,1391],{},", Germany—specifically from the ",[951,3039,3040],{},"Chair of Metallic Materials",[28,3042,3043,3044,3047],{},"This seminar highlighted VGU's unique ",[951,3045,3046],{},"Flying Faculty model",", showing how direct collaboration with German partner institutions ensures that VGU students are actively engaged in world-class research.",[1012,3049],{},[1015,3051,3053],{"id":3052},"cutting-edge-metallurgy-portfolios","🔬 Cutting-Edge Metallurgy Portfolios",[28,3055,3056],{},"During the seminar, our German flying faculty presented advanced R&D projects that VGU master's students can join for their master thesis work:",[1035,3058,3060],{"id":3059},"_1-computational-material-design","💻 1. Computational Material Design",[945,3062,3063,3069],{},[948,3064,3065,3068],{},[951,3066,3067],{},"The Science:"," Applying quantum-mechanical atomistic calculations and finite-element modeling to predict phase diagrams, crystallographic textures, and mechanical properties.",[948,3070,3071,3074],{},[951,3072,3073],{},"Impact:"," Accelerating the design of next-generation structural alloys without the cost of trial-and-error laboratory casts.",[1035,3076,3078],{"id":3077},"_2-microstructural-engineering-biomaterials","🦾 2. Microstructural Engineering & Biomaterials",[945,3080,3081,3086],{},[948,3082,3083,3085],{},[951,3084,3067],{}," Mapping how processing pathways (advanced quenching, rolling, specialized forging) alter internal grain boundaries and corrosion resistance.",[948,3087,3088,3090],{},[951,3089,3073],{}," Engineering specialized steels and biomedical implants (such as CoCrMo alloys for high-durability joint prosthetics) that withstand harsh biological environments.",[1035,3092,3094],{"id":3093},"️-3-sustainable-metallurgy-dirty-alloys-recycling","♻️ 3. Sustainable Metallurgy: \"Dirty Alloys\" Recycling",[945,3096,3097,3102],{},[948,3098,3099,3101],{},[951,3100,3067],{}," Investigating how impurity elements affect mechanical integrity, aiming to formulate tolerant chemical compositions.",[948,3103,3104,3106],{},[951,3105,3073],{}," Enabling high-performance, structural alloys to be manufactured entirely from recycled scrap aluminum, driving circular economy solutions.",[1012,3108],{},[1075,3110,3111],{},[28,3112,3113,3115,3118],{},[1080,3114,1082],{},[951,3116,3117],{},"VGU-German Cooperation:","\nDirect integration with OVGU's research chairs means our students do not just study from textbooks. They tackle actual industrial challenges, laying the groundwork for funded research stays, German master's theses, and international PhD opportunities.",[1012,3120],{},[28,3122,3123],{},"We thank our German partner faculty for delivering this inspiring overview of advanced metallurgy, and look forward to our students' upcoming thesis collaborations!",[1012,3125],{},[28,3127,3128],{},[1323,3129],{"alt":3130,"src":3131},"VGU MSI cohort attending the metallic materials seminar - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fprogram-overview-img-1.jpg",[28,3133,3134],{},[1323,3135],{"alt":3136,"src":3137},"Flying Faculty introducing advanced alloy research - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fprogram-overview-img-2.jpg",{"title":10,"searchDepth":11,"depth":11,"links":3139},[3140],{"id":3052,"depth":11,"text":3053,"children":3141},[3142,3143,3144],{"id":3059,"depth":1171,"text":3060},{"id":3077,"depth":1171,"text":3078},{"id":3093,"depth":1171,"text":3094},"2025-11-05","MSI Master students discover VGU's unique Flying Faculty model and metal research portfolios (computational alloy design, sustainable recycling) in partnership with OVGU Germany.","\u002Fimages\u002Facademic_activities\u002Fprogram-overview-cover.jpg",{"ja_id":3149,"edited":16,"modules":3150},"12633585",[1494],"\u002F_activities\u002Fprogram-overview",{"title":3026,"description":3146},"_activities\u002Fprogram-overview","NclV47D61o2h4pbMA8kXskZepQlICA0MIG450gfHD7A",{"id":3156,"title":3157,"body":3158,"category":2327,"date":3299,"description":3300,"extension":14,"highlighted":969,"image":3301,"meta":3302,"navigation":16,"path":3306,"seo":3307,"stem":3308,"__hash__":3309},"activities\u002F_activities\u002Fresearch-labs.md","Lab Training: Research Lab Module - Advanced Properties, Testing, & Analytics",{"type":7,"value":3159,"toc":3291},[3160,3163,3171,3174,3176,3180,3183,3187,3195,3199,3206,3210,3223,3225,3241,3243,3247,3250,3253,3255,3261,3267,3273,3279,3285],[937,3161,3157],{"id":3162},"lab-training-research-lab-module-advanced-properties-testing-analytics",[28,3164,3165,3166,3168,3169,1613],{},"Students in the Master of Science in Materials Science (MSI) program at the ",[951,3167,990],{}," have completed a major milestone in their academic journey: the intensive ",[951,3170,2920],{},[28,3172,3173],{},"Held in our state-of-the-art laboratory facility, this hands-on course allowed students to apply advanced thermodynamic and mechanical theories to real-world material synthesis, characterization, and quality control under strict safety protocols.",[1012,3175],{},[1015,3177,3179],{"id":3178},"experiential-learning-key-lab-disciplines","🔬 Experiential Learning: Key Lab Disciplines",[28,3181,3182],{},"Students rotated through three research-grade laboratory suites, gaining practical competencies required for modern materials engineering:",[1035,3184,3186],{"id":3185},"️-1-powder-metallurgy-mechanical-alloying","⚙️ 1. Powder Metallurgy & Mechanical Alloying",[945,3188,3189],{},[948,3190,3191,3194],{},[951,3192,3193],{},"The Work:"," Mastering synthesis routes for high-melting-point refractory alloys. Students controlled high-energy ball milling parameters to refine particles and induce mechanical alloying at solid state.",[1035,3196,3198],{"id":3197},"️-2-heat-treatment-metallography","⛓️ 2. Heat Treatment & Metallography",[945,3200,3201],{},[948,3202,3203,3205],{},[951,3204,3193],{}," Quenching, tempering, and sintering alloys to systematically alter mechanical properties. Students prepared metallographic specimens through grinding and polishing, using chemical etchants to resolve grain structures.",[1035,3207,3209],{"id":3208},"_3-high-end-material-characterization-analytics","🔬 3. High-End Material Characterization & Analytics",[945,3211,3212,3217],{},[948,3213,3214,3216],{},[951,3215,3193],{}," Operating advanced scientific characterization equipment to inspect milled powders and structural alloys.",[948,3218,3219,3222],{},[951,3220,3221],{},"Tools Used:"," X-Ray Diffraction (XRD) for phase identification, Scanning Electron Microscopy (SEM) for morphology, and laser diffraction for particle size analysis.",[1012,3224],{},[1075,3226,3227],{},[28,3228,3229,3231,3234,3237,3238,3240],{},[1080,3230,1082],{},[951,3232,3233],{},"Faculty Insight:",[1111,3235,3236],{},"\"We believe that practical, lab-based learning is crucial for our students to not only understand the theoretical aspects but to also experience and analyze real material behaviors. This is the key to developing future material scientists and engineers.\"","\n— ",[951,3239,1766],{},", Research Lab Lecturer (OVGU Magdeburg)",[1012,3242],{},[1015,3244,3246],{"id":3245},"preparing-globally-competitive-materials-experts","🚀 Preparing Globally Competitive Materials Experts",[28,3248,3249],{},"The hands-on competencies developed in these research labs prepare our students for professional success.",[28,3251,3252],{},"This rigorous training lays a solid foundation for their upcoming master's thesis—enabling them to execute independent, high-impact research projects in partnership with German universities and leading global R&D centers!",[1012,3254],{},[28,3256,3257],{},[1323,3258],{"alt":3259,"src":3260},"VGU MSI students conducting high-temperature alloy tests - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fresearch-labs-img-1.jpg",[28,3262,3263],{},[1323,3264],{"alt":3265,"src":3266},"Preparing powder samples for ball milling - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fresearch-labs-img-2.jpg",[28,3268,3269],{},[1323,3270],{"alt":3271,"src":3272},"Polishing and grinding metallographic steel specimens - Illustration 3","\u002Fimages\u002Facademic_activities\u002Fresearch-labs-img-3.jpg",[28,3274,3275],{},[1323,3276],{"alt":3277,"src":3278},"Adjusting X-ray diffraction scanner settings - Illustration 4","\u002Fimages\u002Facademic_activities\u002Fresearch-labs-img-4.jpg",[28,3280,3281],{},[1323,3282],{"alt":3283,"src":3284},"VGU research lab equipment controls - Illustration 5","\u002Fimages\u002Facademic_activities\u002Fresearch-labs-img-5.jpg",[28,3286,3287],{},[1323,3288],{"alt":3289,"src":3290},"MSI cohort working in VGU materials lab - Illustration 6","\u002Fimages\u002Facademic_activities\u002Fresearch-labs-img-6.jpg",{"title":10,"searchDepth":11,"depth":11,"links":3292},[3293,3298],{"id":3178,"depth":11,"text":3179,"children":3294},[3295,3296,3297],{"id":3185,"depth":1171,"text":3186},{"id":3197,"depth":1171,"text":3198},{"id":3208,"depth":1171,"text":3209},{"id":3245,"depth":11,"text":3246},"2025-06-10","VGU MSI Master students complete their Properties, Testing, and Analytics research lab, practicing powder metallurgy, metallography, SEM, and XRD.","\u002Fimages\u002Facademic_activities\u002Fresearch-labs-cover.jpg",{"ja_id":3303,"edited":16,"modules":3304},"11434216",[3305],"research-lab-properties-testing-and-analytics","\u002F_activities\u002Fresearch-labs",{"title":3157,"description":3300},"_activities\u002Fresearch-labs","Sx45Mj9w3DjntVIp2TA0727gVW3fK7gMCzmA6Mr3BOA",{"id":3311,"title":3312,"body":3313,"category":2327,"date":3405,"description":3406,"extension":14,"highlighted":969,"image":3407,"meta":3408,"navigation":16,"path":3411,"seo":3412,"stem":3413,"__hash__":3414},"activities\u002F_activities\u002Fsem-xrd-tour.md","Lab Training: Scanning Electron Microscopy (SEM) & XRD Research Lab Tour",{"type":7,"value":3314,"toc":3401},[3315,3318,3328,3331,3333,3337,3340,3354,3356,3366,3368,3372,3378,3381,3383,3389,3395],[937,3316,3312],{"id":3317},"lab-training-scanning-electron-microscopy-sem-xrd-research-lab-tour",[28,3319,3320,3321,3323,3324,3327],{},"On March 17th, Master of Science in Materials Science (MSI) students at the ",[951,3322,990],{}," joined ",[951,3325,3326],{},"Dr. Ulf Betke"," for a specialized research lab tour exploring advanced micro- and nano-scale characterization.",[28,3329,3330],{},"Operating VGU's high-vacuum electron microscopy and X-ray diffraction suites, students connected the atomic-scale physics of structural and porous materials with practical, real-world engineering applications.",[1012,3332],{},[1015,3334,3336],{"id":3335},"deep-dive-scanning-electron-microscopy-x-ray-diffraction","🔬 Deep Dive: Scanning Electron Microscopy & X-Ray Diffraction",[28,3338,3339],{},"During the tour, students explored the physical principles and operational guidelines of our core characterization tools:",[945,3341,3342,3348],{},[948,3343,3344,3347],{},[951,3345,3346],{},"Scanning Electron Microscopy (SEM) Tour:"," Students observed the generation of high-energy electron beams under high vacuum. They analyzed secondary electron and backscattered electron detectors, producing high-resolution micrographs that resolve surface topography at nanometer scales.",[948,3349,3350,3353],{},[951,3351,3352],{},"X-Ray Diffraction (XRD) Demonstration:"," The cohort explored crystal lattice diffraction under Bragg’s Law ($n\\lambda = 2d\\sin\\theta$). They monitored real-time scans of powdered crystalline materials, identifying phase composition, lattice symmetry, and crystallite size.",[1012,3355],{},[1075,3357,3358],{},[28,3359,3360,3362,3365],{},[1080,3361,1082],{},[951,3363,3364],{},"Why this matters for your Studies:","\nMaterials characterization is a foundational skill for both advanced research and industrial quality control. VGU MSI students gain hands-on training with research-grade SEM and XRD equipment, preparing them to enter R&D, metallurgy, semiconductor, and polymer engineering fields globally.",[1012,3367],{},[1015,3369,3371],{"id":3370},"connecting-theory-to-industrial-practice","🚀 Connecting Theory to Industrial Practice",[28,3373,3374,3375,3377],{},"This laboratory tour reinforced key concepts from the ",[951,3376,354],{}," module, demonstrating how high-end microscopy and diffraction are used to troubleshoot failures, optimize alloys, and engineer new structural components.",[28,3379,3380],{},"We express our sincere thanks to Dr. Ulf Betke for delivering this inspiring and technically rich laboratory experience!",[1012,3382],{},[28,3384,3385],{},[1323,3386],{"alt":3387,"src":3388},"Dr. Ulf Betke demonstrating SEM sample loading - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fsem-xrd-tour-img-1.jpg",[28,3390,3391],{},[1323,3392],{"alt":3393,"src":3394},"MSI Cohort observing high-resolution electron micrographs - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fsem-xrd-tour-img-2.jpg",[28,3396,3397],{},[1323,3398],{"alt":3399,"src":3400},"XRD diffractometer in VGU materials science lab - Illustration 3","\u002Fimages\u002Facademic_activities\u002Fsem-xrd-tour-img-3.jpg",{"title":10,"searchDepth":11,"depth":11,"links":3402},[3403,3404],{"id":3335,"depth":11,"text":3336},{"id":3370,"depth":11,"text":3371},"2026-03-30","VGU MSI Master students join Dr. Ulf Betke for a research lab tour, exploring advanced micro-nano characterization with SEM and XRD.","\u002Fimages\u002Facademic_activities\u002Fsem-xrd-tour-cover.jpg",{"ja_id":3409,"edited":16,"modules":3410},"13548847",[3019],"\u002F_activities\u002Fsem-xrd-tour",{"title":3312,"description":3406},"_activities\u002Fsem-xrd-tour","LjiOlmmQzv4MJ5tW00jFnfJdxVvPGsWUB1TD0i1Gzlk",{"id":3416,"title":3417,"body":3418,"category":1356,"date":3522,"description":3523,"extension":14,"highlighted":16,"image":3524,"meta":3525,"navigation":16,"path":3528,"seo":3529,"stem":3530,"__hash__":3531},"activities\u002F_activities\u002Fvina-kraft-trip.md","Excursion: Vina Kraft Paper - Industrial Pulp Processing & Packaging Engineering",{"type":7,"value":3419,"toc":3518},[3420,3423,3430,3433,3435,3439,3442,3468,3470,3480,3482,3486,3489,3492,3494,3500,3506,3512],[937,3421,3417],{"id":3422},"excursion-vina-kraft-paper-industrial-pulp-processing-packaging-engineering",[28,3424,3425,3426,3429],{},"To see materials engineering in action at a massive scale, Master of Science in Materials Science (MSI) students at VGU visited the highly automated production facilities of ",[951,3427,3428],{},"Vina Kraft Paper"," in Binh Duong, Vietnam.",[28,3431,3432],{},"As the leading packaging paper manufacturer in the region, Vina Kraft Paper provided our students with an immersion into the industrial processing, chemical treatments, and structural properties of plant-based cellulose fibers.",[1012,3434],{},[1015,3436,3438],{"id":3437},"️-cellulosic-materials-science-technical-focus","🏛️ Cellulosic Materials Science: Technical Focus",[28,3440,3441],{},"Vina Kraft engineers guided the cohort through the entire paper-making pipeline, exploring key concepts in natural polymer processing:",[945,3443,3444,3450,3456,3462],{},[948,3445,3446,3449],{},[951,3447,3448],{},"Raw Pulp Preparation & Fiber Refining:"," Understanding how recycled paper is pulped, chemically cleaned, and mechanically refined to optimize the aspect ratio and surface area of cellulose fibers.",[948,3451,3452,3455],{},[951,3453,3454],{},"Hydrogen Bonding & Sheet Forming:"," Exploring the physics of sheet forming on continuous high-speed wire meshes, where the drying process induces massive hydrogen bonding between cellulose chains, establishing dry strength.",[948,3457,3458,3461],{},[951,3459,3460],{},"Quality Control & Structural Testing:"," Observing standard mechanical checks for industrial packaging—including burst strength, crush resistance (ring crush test), and tear propagation limits.",[948,3463,3464,3467],{},[951,3465,3466],{},"Sustainable Industrial Practices:"," Analyzing energy-efficient continuous belt drying, advanced water treatment plants, and closed-loop paper recycling systems.",[1012,3469],{},[1075,3471,3472],{},[28,3473,3474,3476,3479],{},[1080,3475,1082],{},[951,3477,3478],{},"MSI Perspective:","\nPaper is a complex, natural polymer matrix composite. Understanding how sizing agents, starch additives, and mechanical refining alter sheet structures is a perfect lesson in polymer composite engineering.",[1012,3481],{},[1015,3483,3485],{"id":3484},"bridging-science-and-application","🚀 Bridging Science and Application",[28,3487,3488],{},"This excursion highlighted how materials science and chemical engineering principles are implemented on high-throughput industrial lines. By exploring large-scale manufacturing and automated quality control, VGU students gain invaluable insights into product development, process optimization, and industrial sustainability.",[28,3490,3491],{},"We thank the team at Vina Kraft Paper for their warm hospitality and for inspiring our future materials engineers!",[1012,3493],{},[28,3495,3496],{},[1323,3497],{"alt":3498,"src":3499},"MSI students touring the continuous paper production line - Illustration 1","\u002Fimages\u002Facademic_activities\u002Fvina-kraft-trip-img-1.jpg",[28,3501,3502],{},[1323,3503],{"alt":3504,"src":3505},"Vina Kraft engineers explaining automated pulp dosing - Illustration 2","\u002Fimages\u002Facademic_activities\u002Fvina-kraft-trip-img-2.jpg",[28,3507,3508],{},[1323,3509],{"alt":3510,"src":3511},"Vina Kraft paper quality control testing lab - Illustration 3","\u002Fimages\u002Facademic_activities\u002Fvina-kraft-trip-img-3.jpg",[28,3513,3514],{},[1323,3515],{"alt":3516,"src":3517},"VGU MSI cohort group photo at Vina Kraft HQ - Illustration 4","\u002Fimages\u002Facademic_activities\u002Fvina-kraft-trip-img-4.jpg",{"title":10,"searchDepth":11,"depth":11,"links":3519},[3520,3521],{"id":3437,"depth":11,"text":3438},{"id":3484,"depth":11,"text":3485},"2026-05-08","VGU Materials Science Master students visit Vina Kraft Paper in Binh Duong, exploring industrial pulp processing, cellulose chemistry, and packaging engineering.","\u002Fimages\u002Facademic_activities\u002Fvina-kraft-trip-cover.jpg",{"ja_id":3526,"edited":16,"modules":3527},"13827278",[1184],"\u002F_activities\u002Fvina-kraft-trip",{"title":3417,"description":3523},"_activities\u002Fvina-kraft-trip","VgStEScHBAINT5EEy0ky7WoCv17RXUbyAoGto3BCTsk",[3533,3565,3595,3625,3654,3682],{"id":3534,"title":3535,"body":3536,"cover_image":3540,"description":10,"extension":14,"head":3541,"head_avatar":3542,"link_to_introduction":3543,"meta":3544,"navigation":16,"path":3545,"pdf_introduction":3546,"projects":3547,"projects_vi":3548,"seo":3549,"stem":3550,"title_vi":3551,"topics":3552,"topics_vi":3558,"__hash__":3564},"research\u002F_research\u002Fcomp-mech.md","Chair of Computational Mechanics",{"type":7,"value":3537,"toc":3538},[],{"title":10,"searchDepth":11,"depth":11,"links":3539},[],"\u002Fimages\u002Fresearch\u002Fcomp-mech.png","Prof. Dr.-Ing. Daniel Juhre","\u002FLecturer_Avatar\u002FDaniel Juhre.jpg","https:\u002F\u002Fwww.nm.ovgu.de\u002Fnm\u002Fen\u002F",{},"\u002F_research\u002Fcomp-mech","\u002Fimages\u002Fresearch\u002FComp_Mech.pdf","DFG projects on phase-field modeling and fracture; neural-network-augmented material modeling.","Các dự án DFG về mô hình hóa trường pha phá hủy; mô hình vật liệu tăng cường mạng nơ-ron.",{"title":3535,"description":10},"_research\u002Fcomp-mech","Bộ môn Cơ học Tính toán",[3553,3554,3555,3556,3557],"Non-standard discretization (Finite Cell Method FCM, immersed boundaries)","Physics-Augmented Neural Networks (PANNs) for material models","Fracture mechanics and phase-field modeling of cracks","Biomechanical modeling and performance of ankle-foot orthoses (AFO)","Multi-physical field couplings in elastomers",[3559,3560,3561,3562,3563],"Phương pháp rời rạc hóa phi tiêu chuẩn (Phương pháp Tế bào Hữu hạn FCM)","Mạng nơ-ron tăng cường vật lý (PANNs) cho các mô hình vật liệu","Cơ học phá hủy và mô hình hóa trường pha của vết nứt","Mô hình hóa cơ sinh học và hiệu suất của dụng cụ chỉnh hình cổ bàn chân (AFO)","Liên kết trường đa vật lý trong chất đàn hồi (elastomers)","ertaLdZxvhM3AuhRnxILhdbxll1L9O3mPOJYhFA_5JE",{"id":3566,"title":3567,"body":3568,"cover_image":3572,"description":10,"extension":14,"head":3573,"head_avatar":3574,"link_to_introduction":3575,"meta":3576,"navigation":16,"path":3577,"pdf_introduction":3578,"projects":3579,"projects_vi":3580,"seo":3581,"stem":3582,"title_vi":3583,"topics":3584,"topics_vi":3589,"__hash__":3594},"research\u002F_research\u002Feng-mechanics.md","Chair of Engineering Mechanics",{"type":7,"value":3569,"toc":3570},[],{"title":10,"searchDepth":11,"depth":11,"links":3571},[],"\u002Fimages\u002Fresearch\u002Feng-mechanics.png","Prof. Dr.-Ing. habil. Holm Altenbach (Emeritus)","\u002FLecturer_Avatar\u002FHolm Altenbach.jpg","https:\u002F\u002Fwww.tm.ovgu.de\u002Ftm\u002Fen\u002F",{},"\u002F_research\u002Feng-mechanics",null,"Lifetime estimation of thin-walled vessels under static and cyclic loading.","Đánh giá tuổi thọ của bình vỏ mỏng dưới tải trọng tĩnh và chu kỳ.",{"title":3567,"description":10},"_research\u002Feng-mechanics","Bộ môn Cơ học Kỹ thuật",[3585,3586,3587,3588],"Creep-damage modeling under multi-axial stress states","Structural mechanics of plates and shells under complex loadings","Numerical methods (FEM) for time-dependent deformation and strength","Transversally isotropic creep and materials with different tension\u002Fcompression behavior",[3590,3591,3592,3593],"Mô hình hóa từ biến - phá hủy dưới trạng thái ứng suất đa trục","Cơ học kết cấu của tấm và vỏ dưới tải trọng phức tạp","Phương pháp số (FEM) cho biến dạng phụ thuộc thời gian và độ bền","Sự từ biến đẳng hướng ngang và vật liệu có hành vi kéo\u002Fnén khác nhau","ezuAMAd6Nvbo87FtgwCixFk-EO17nxgxbbxLQafnVcY",{"id":3596,"title":3597,"body":3598,"cover_image":3602,"description":10,"extension":14,"head":3603,"head_avatar":3604,"link_to_introduction":3605,"meta":3606,"navigation":16,"path":3607,"pdf_introduction":3578,"projects":3608,"projects_vi":3609,"seo":3610,"stem":3611,"title_vi":3612,"topics":3613,"topics_vi":3618,"__hash__":3624},"research\u002F_research\u002Fhi-temp.md","Chair of High Temperature Materials",{"type":7,"value":3599,"toc":3600},[],{"title":10,"searchDepth":11,"depth":11,"links":3601},[],"\u002Fimages\u002Fresearch\u002Fhi-temp.png","Prof. Dr.-Ing. Manja Krüger","\u002FLecturer_Avatar\u002FManja Kruger.jpg","https:\u002F\u002Fwww.ht-materials.ovgu.de\u002F",{},"\u002F_research\u002Fhi-temp","Mo-Si-B alloys for gas turbine blades; structural titanium and cobalt-based biomaterials.","Hợp kim Mo-Si-B cho cánh tuabin khí; vật liệu sinh học nền titan và coban.",{"title":3597,"description":10},"_research\u002Fhi-temp","Bộ môn Vật liệu Chịu nhiệt độ cao",[3614,3615,3616,3617],"Refractory multi-component silicide alloys (e.g. Mo-Si-B and V-Si-B systems)","High-temperature alloy design, phase evolution, and solidification patterns","Mechanical testing and creep resistance at extreme temperatures up to 1500°C","Bio-compatible metallic alloys (TiAl6V4, CoCr28Mo6) and porous implant surface modifications",[3619,3621,3622,3623],{"Hợp kim silicide chịu lửa đa thành phần (ví dụ":3620},"hệ Mo-Si-B và V-Si-B)","Thiết kế hợp kim nhiệt độ cao, sự tiến triển pha và đặc tính đông đặc","Thử nghiệm cơ học và khả năng chống từ biến ở nhiệt độ cực cao lên tới 1500°C","Hợp kim kim loại tương thích sinh học (TiAl6V4, CoCr28Mo6) và sửa đổi bề mặt mô cấy xốp","Hk5Tl3BABj8E2L-WRz92L1bCrfJvHXfJ8_DMshMkxy0",{"id":3626,"title":3040,"body":3627,"cover_image":3631,"description":10,"extension":14,"head":3632,"head_avatar":3633,"link_to_introduction":3634,"meta":3635,"navigation":16,"path":3636,"pdf_introduction":3637,"projects":3638,"projects_vi":3639,"seo":3640,"stem":3641,"title_vi":3642,"topics":3643,"topics_vi":3648,"__hash__":3653},"research\u002F_research\u002Fmetallic.md",{"type":7,"value":3628,"toc":3629},[],{"title":10,"searchDepth":11,"depth":11,"links":3630},[],"\u002Fimages\u002Fresearch\u002Fmetallic.png","Prof. Dr.-Ing. Thorsten Halle","\u002FLecturer_Avatar\u002FThorsten Halle.jpg","https:\u002F\u002Fwww.metalle.ovgu.de\u002F",{},"\u002F_research\u002Fmetallic","\u002Fimages\u002Fresearch\u002FMetallic.pdf","Dynamic mechanical testing and surface modification for orthopedic implants.","Thử nghiệm cơ học động học và biến tính bề mặt cho các mô cấy chỉnh hình.",{"title":3040,"description":10},"_research\u002Fmetallic","Bộ môn Vật liệu Kim loại",[3644,3645,3646,3647],"Advanced high-performance metallic materials development and microstructural characterization","Mechanical behavior under high strain rates and dynamic loadings","Corrosive wear and bio-compatibility of orthopedic metallic implants","Deep rolling and joining technology effects on surface and interface microstructures",[3649,3650,3651,3652],"Phát triển vật liệu kim loại hiệu suất cao và đặc tính hóa cấu trúc vi mô","Hành vi cơ học dưới tốc độ biến dạng cao và tải trọng động","Mài mòn ăn mòn và tính tương thích sinh học của các mô cấy kim loại chỉnh hình","Ảnh hưởng của công nghệ cán sâu và hàn nối lên cấu trúc vi mô bề mặt và liên kết","eok0mfu85EzXqdGm-3BbUrOVwlhABt8CvODuuDgNoqo",{"id":3655,"title":3656,"body":3657,"cover_image":3661,"description":10,"extension":14,"head":1605,"head_avatar":3662,"link_to_introduction":3663,"meta":3664,"navigation":16,"path":3665,"pdf_introduction":3578,"projects":3666,"projects_vi":3667,"seo":3668,"stem":3669,"title_vi":3670,"topics":3671,"topics_vi":3676,"__hash__":3681},"research\u002F_research\u002Fnon-metallic.md","Chair of Non-Metallic Materials",{"type":7,"value":3658,"toc":3659},[],{"title":10,"searchDepth":11,"depth":11,"links":3660},[],"\u002Fimages\u002Fresearch\u002Fnon-metallic.png","\u002FLecturer_Avatar\u002FMichael Scheffler.jpg","https:\u002F\u002Fwww.ceramics.ovgu.de\u002F",{},"\u002F_research\u002Fnon-metallic","High-temperature ceramic filters and thermal barrier coatings.","Bộ lọc gốm nhiệt độ cao và lớp phủ rào cản nhiệt.",{"title":3656,"description":10},"_research\u002Fnon-metallic","Bộ môn Vật liệu Phi kim loại (Gốm sứ)",[3672,3673,3674,3675],"Polymer-derived ceramics (PDCs) and ceramic matrix composites (CMCs)","Processing and thermal\u002Fmechanical characterization of ceramic foams and cellular porous structures","Materials for high-temperature, energy, environment, and biomedical sectors","Surface functionalization and structural ceramic filter optimization",[3677,3678,3679,3680],"Gốm nguồn gốc polyme (PDCs) và composite nền gốm (CMCs)","Quy trình sản xuất và đặc tính nhiệt\u002Fcơ học của bọt gốm và cấu trúc lỗ xốp tế bào","Vật liệu cho nhiệt độ cao, năng lượng, môi trường và lĩnh vực y sinh","Chức năng hóa bề mặt và tối ưu hóa bộ lọc gốm cấu trúc","0Jf3i1dn6VFKDatLfz12evrQL2fDkVEsgBizTMd-7Cg",{"id":3683,"title":3684,"body":3685,"cover_image":3689,"description":10,"extension":14,"head":3690,"head_avatar":3691,"link_to_introduction":3692,"meta":3693,"navigation":16,"path":3694,"pdf_introduction":3578,"projects":3695,"projects_vi":3696,"seo":3697,"stem":3698,"title_vi":3699,"topics":3700,"topics_vi":3705,"__hash__":3710},"research\u002F_research\u002Fsolid-state.md","Chair of Solid State Physics",{"type":7,"value":3686,"toc":3687},[],{"title":10,"searchDepth":11,"depth":11,"links":3688},[],"\u002Fimages\u002Fresearch\u002Fsolid-state.png","Prof. Dr. rer. nat. Jürgen Christen","\u002FLecturer_Avatar\u002FJurgen Christen.jpg","https:\u002F\u002Fwww.physik.ovgu.de\u002FAbteilungen+des+IfP\u002FFestkörperphysik_+spez_+Halbleiterphysik-p-8.html",{},"\u002F_research\u002Fsolid-state","GaN-based nanowire LEDs; single-photon emitters for quantum optics.","Đèn LED dây nano trên nền GaN; bộ phát đơn photon cho quang học lượng tử.",{"title":3684,"description":10},"_research\u002Fsolid-state","Bộ môn Vật lý Chất rắn",[3701,3702,3703,3704],"Physics of wide-bandgap semiconductors (GaN, AlN, ZnO, Ga2O3)","Advanced characterization via low-temperature cathodoluminescence (CL) spectroscopy","3D cathodoluminescence tomography utilizing FIB-nanolabs","Growth and spatial characterization of nanostructures (quantum dots, wires, and wells)",[3706,3707,3708,3709],"Vật lý của chất bán dẫn khe rộng (GaN, AlN, ZnO, Ga2O3)","Đặc tính hóa tiên tiến qua quang phổ vi phát quang và phân cực catốt (CL) nhiệt độ thấp","Chụp cắt lớp phân cực catốt 3D sử dụng FIB-nanolabs","Sự tăng trưởng và đặc tính hóa cấu trúc nano (giếng, dây và chấm lượng tử)","uOTJdS4aGtLIRbpv4TwjDDe8lJdpZumNTpjrWPIAq6M",1780343976157]