Nanomaterials and Nanocomposites: Characterization, Processing, and Applications


SECTION I: State of ArtRecent Developments in Nanomaterial ApplicationsIntroductionNanomedicineApplication of Nanomaterials in MedicineNanomaterials in Tissue Repair and RegenerationNanomaterials in ImplantationNanomaterials in Medical DevicesNanomaterials in Diagnostic ToolsNanomaterials in PharmaceuticsConclusionReferencesSome Impact of Nanomaterials in Aerospace EngineeringIntroductionNanomaterial StructureSurface Properties of Nanomaterials and CNTs in AerospaceMicroscopy Methods of NanomaterialsScanning Tunneling Microscope (STM)Atomic Force Microscopy (AFM)Radar Absorbing MaterialsNanochassisProminence of Nanomaterials in Aerospace IndustryCNT Structures for Aerospace ComponentsFuture ScopeCons of NanomaterialsConclusionReferencesLightweight Polymer–Nanoparticle-Based Composites: An OverviewIntroductionClassification of Composite MaterialsMetal Matrix CompositesCeramic CompositesPolymer CompositesApplication of Polymer CompositesAerospace IndustryAutomotive IndustryMarine IndustryMicroelectronicsMedical ApplicationsConstruction IndustryProcessing of Polymer-Based CompositesAutoclave MoldingOut-of-Autoclave Quickstep MoldingLiquid MoldingFilament Winding ProcessState-of-the-Art Review of Polymer–Nanoparticle CompositesMicro-composites: Sand–Plastic CompositeNanocomposites: Plastic–Silica Nanoparticle CompositesConclusionReferencesThe Role and Applications of Nanomaterials in the Automotive IndustryIntroductionCarbon Nanotubes for Automobile RadiatorsCNTs for Pressure SensingSilicon CarbideSi-Al for AutomobilesGrapheneNano CoatingsScratch-Resistant NanocoatingsNano VarnishConclusionsReferencesCharacterization Tools and Techniques for Nanomaterials and NanocompositesIntroductionCharacterization TechniquesDiffractionX-Ray DiffractionNeutron DiffractionMicroscopyElectron MicroscopySpectroscopyFTIR SpectroscopyUV–Visible Absorption SpectroscopyRaman SpectroscopyNuclear Magnetic ResonanceThermal Mechanical Analysis (TMA)Differential Scanning Calorimetry (DSC)Thermogravimetric Analysis (TGA)Dynamic Mechanical Thermal Analysis (DMTA)ConclusionReferencesSECTION II: SynthesisSynthesis and Fabrication of Graphene/Ag-Infused Polymer NanocompositeIntroductionMaterials and MethodsMaterialsGraphene Synthesis Using Organoclay as Precursor and Autogenic Pressure Reaction TechniqueGraphene–Ag Nanoparticle SynthesisPolymer Nanocomposite SynthesisCharacterizationThermogravimetric Analysis (TGA) of NanoclayX-Ray Diffraction (XRD) of SG and SG-Ag NanoparticlesTransmission Electron Microscopy (TEM) of NanoparticlesX-Ray Photoelectron Spectroscopy (XPS) of SG and SG-Ag NanoparticlesRaman Spectroscopy of SG and SG-Ag NanoparticlesElectrical Conductivity of SG and SG-Ag NanoparticlesThermal Conductivity of SG and SG-Ag NanoparticlesResults and DiscussionThermogravimetric Analysis of NanoclayX-Ray Diffraction (XRD) Analysis of SG and SG-Ag NanoparticlesTransmission Electron Microscopy (ТЕМ) and Energy-Dispersive Spectroscopy (EDS) of GRAPHENE-Ag NanoparticlesX-Ray Photoelectron Spectroscopy (XPS) of SG and SG-Ag NanoparticlesRaman Spectroscopy of SG and SG-Ag NanoparticlesElectrical Conductivity of SG and SG-Ag NanoparticlesThermal Conductivity of SG and SG-Ag NanoparticlesThermo-Mechanical Analysis (TMA) of Graphene Nanoparticle Polymer Nanocomposite SystemsThermogravimetric Analysis (TGA) of Graphene Nanoparticle Polymer Composite SystemsDynamic Mechanical Analysis (DMA) of Graphene Nanoparticle Composite SystemsFlexure 3-Point Bending AnalysisSummaryAcknowledgmentsReferencesSECTION III: AnalysisAging and Corrosion Behavior of Ni- and Cr-Electroplated Coatings on Exhaust Manifold Cast Iron for Automotive ApplicationsIntroductionMaterials and MethodsResults and DiscussionHardnessAging BehaviorCorrosion BehaviorWeight Loss MethodPotential Dynamic PolarizationConclusionReferencesExperimental Evaluation of Wear and Coefficient of Frictional Performance of Zirconium Oxide Nanoparticle–Reinforced Polymer Composites for Gear ApplicationsIntroductionPolyamidesPolyamide 6Chemical Composition of PA6Features of PA6Applications of PA6FillersMaterials UsedPreparation of PA6 Test SpecimenVarious Stages of Preparation of PA6 Composite Test SpecimenProportions of Fabricated PA6 Composite Test SpecimenTribological Properties of PA6 CompositesFriction and Wear RateAnalysis of Tribological Execution of PA6 and PA6 CompositesCoefficient of Friction for PA6 and PA6 CompositesRate of WearScanning Electron Microscopy Study of ZrO2/PA6 CompositesFabrication of GearConclusionsReferencesComparative Numerical Analyses of Different Carbon Nanotubes Added with Carbon Fiber–Reinforced Polymer CompositeIntroduction about NanocompositeLiterature SurveySummaryMethodology Used and Its ValidationExperimental TestingMaterials Used and Dimensions of SpecimenPreparation of Test SpecimenTesting ResultsTheoretical CalculationInvestigation IInvestigation IIFinite Element Analysis of NanocompositesResults and DiscussionDetails about Models UsedStructural Simulations on SWCNT-Based CFRPStructural Simulations on MWCNT-Based CFRPComparative Analysis of All the DeformationsComparative Analysis of All the Strain EnergiesComparative Analysis of All the Stress ValuesConclusionsReferences
 
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