Polymer Coatings: Technologies and Applications


IntroductionSalient Features of Polymeric CoatingsNecessity of Polymeric CoatingsCurrent ScenarioResearch PerspectiveSolubility CharacteristicsSolubility ParametersPolymer Solution ThermodynamicsRole of Different Ingredients in CoatingsSolventAdditivesPigmentsCoatings Industry DemandConclusionReferencesPolymer Coatings MethodsIntroductionTechniques for the Preparation of Polymeric CoatingsSpin Coating TechniqueFactors Affecting Spin Coating of Polymer FilmsSpray Coating TechniqueThermal Spray ProcessCold Spray (CS) Coating TechniqueSolvent Casting TechniqueDrop Casting MethodDip Coating TechniqueFilm Casting TechniqueReferencesPolymer Coatings Based on NanocompositesIntroductionWhy are Nanocomposites Attractive for Polymer Coatings?General Aspects, Considerations, and ChallengesSelf-Cleaning Coatings Based on Polymer NanocompositesSelf-Cleaning Coatings Based on Metal Oxide NPs/Polymer NanocompositesPolymer Coatings Using Carbon-Based NanomaterialsPolymer Nanocomposite Coatings for Organic Solar CellsD–A Strategy and HalogenationSmall MoleculesPolymer Nanocomposite Coatings with 2D MaterialsNanocomposite Coatings for Conductive InksConclusionsReferencesMechanism, Anti-Corrosion Protection and Components of Anti-Corrosion Polymer CoatingsIntroductionFilm Forming from Solvent EvaporationCross-Linked Film Forming ProcessCoating for Medical InstrumentsAnti-Corrosion Metal CoatingComponents of Anti-Corrosion CoatingSolventsBindersDifferent Binders in Coating TechnologyReferencesMorphology of Polymer CoatingsIntroductionFactors Affecting the Morphology of CoatingsBackground on Morphology of CoatingsConclusionsReferencesSpectroscopic Analysis of Polymer CoatingsIntroductionBrief Introduction to the SpectroscopyClassification of the Spectroscopic TechniquesInfrared SpectroscopyRaman SpectroscopyElectronic SpectraNuclear Magnetic ResonanceMass Spectrometry (MS)Electrochemical Impedance Spectroscopy (EIS)Applications of Different Spectroscopic Techniques in Polymeric CoatingsSummaryReferencesRheology of Polymer CoatingsIntroductionFundamentals of RheologyIntroductory Key TermsRheological ModelsNewtonian Fluids (Viscous Liquids)Non-Newtonian FluidsRheometry MeasurementsConstitutive Rheological ModelsParameters Affecting Rheological PropertiesEffect of TemperatureStructure of the SystemIndustrial Uses of Rheological AnalysisCommercial Formulations of Coatings and PaintsThe Importance of Rheology in Paints and Coatings FormulationsRheometry of Paints and CoatingsThickeners as Rheology ModifiersConclusionsCure Reactions of Polymer CoatingsIntroductionCross-Linking via Functional Group ReactionsEpoxy ResinsPolyurethanesPhenol- and Amino-Formaldehyde ResinsPolyester ResinsCross-Linking via Double-Bond PolymerizationAcrylatesVinyl ResinsAlkyd ResinsUnsaturated Polyester ResinsPhoto-Cross-LinkingBibliographyThermal and Mechanical Properties of Polymer CoatingsIntroductionHigh-Performance Polymer (HPP) BlendsThermal Properties of Polymer CoatingsMicro-/Nanoindentation and Micro-/Nanoscratch TechniquesMicromechanical Properties of HPPCsSubstrate EffectsCorrelation of Micromechanical Properties with MicrostructureCreep EffectsThermomechanical EffectsMicro-/Nanoscratch ExperimentsCorrelation between Mechanical Properties and Tribological Performance of HPPCsSummaryReferencesConducting Polymer Coatings for Corrosion ProtectionConductive PolymersSynthesis MethodsElectrochemical Synthesis (ES) of Conductive PolymersCyclic Voltammetry (CV)DopingCorrosion Protection of Production PolymersSelf-Healing EffectPolyaniline (PANi)Electrochemical Polymerization of AnilinePolypyrrole (PPy)Electrochemical Polymerization of Pyrrole (Py)Polypyrrole—Protection against CorrosionEffect of the Doping on the Corrosion Resistance of PolypyrroleImprovement of the Protection against Erosion of Polypyrrole Coatings Developed by a Solution of p-TSA with Electrochemical Integration of Cations Exhibiting Corrosion-Inhibiting ActionDevelopment of Polypyrrole Coatings from a Solution of p-TSAElectrochemical Incorporation of Cerium, Manganese, and Cobalt Ions into Polypyrrole Coating Developed from a p-TSA SolutionContinuous-Current Polarization Measurements for Pyrrole Coating with p-TSAContinuous-Current Polarization Measurements for the Pyrrole Coating with p-TSA and Electrochemically Integrated Ions Cerium, Manganese, and CobaltPolypyrrole Coatings Developed by Cerium Nitrate SolutionPANi–PPy Composite CoatingsElectrochemical Polymerization of Composite CoatingsComposite Coatings—Protection against CorrosionConclusionsAcknowledgmentsReferencesStimuli-Responsive Polymer CoatingsIntroductionStimuli-Responsive MaterialsStimuli-Responsive Polymers (SRP)Stimuli-Responsive NanogelsStimuli-Responsive MembranesStimuli-Responsive Polymers in Coating TechnologypH-Sensitive PolymersLight-Sensitive PolymersBiological Environment-Sensitive PolymersTemperature-Sensitive PolymersElectrical-Sensitive PolymersApplications of Stimuli-Responsive MaterialsFoodAgricultureIn Vitro Biomedical DiagnosticsDrug DeliverySensorsCosmeticsTextilesConclusionReferencesSelf-Healing Polymer CoatingsIntroductionSelf-Healing StrategiesExtrinsic Self-HealingIntrinsic Self-HealingSelf-Healing Coating for Anti-CorrosionSelf-Healing Polymer Coatings for Specific ApplicationsGreen Self-Healing CoatingsConclusion and Future PerspectivesReferencesHydrophobic and Hydrophilic Polymer CoatingsIntroductionTheory and Mechanism of Hydrophobicity and HydrophilicityHydrophobic and Hydrophilic Polymer Coatings, Methods, and Specific ApplicationsSurface Coating MethodsApplicationsAnti-FoggingAnti-Corrosive CoatingsSpecialty CoatingsSelf-HealingTextilesSeparation ApplicationsConclusions and OutlookReferencesAntifouling, Antibacterial, and Bioactive Polymer CoatingsIntroductionAntibacterial Polymer CoatingsAntibacterial Agent Release CoatingsContact-Killing Polymer CoatingsAntiadhesion/Bacteria-Repelling Polymer CoatingsBioactive Polymer CoatingsAntibiofouling Polymer SurfacesAntifouling Bioactive SurfacesReferencesAdhesion of Polymer CoatingsIntroductionWork of AdhesionModes of AdhesionPhysical InteractionsChemical InteractionsMechanical InterlockingFactors Affecting Adhesion Performance of Polymer CoatingsSubstrate PreparationSurface RoughnessWettability and SpreadabilityStressesBlisteringWays to Improve Adhesion PerformanceAdhesion PromotersFillersEvaluation of Adhesion PerformancePull-Off AdhesionT-Peel TestCriterion for Good AdhesionConclusionsReferencesModeling and Simulation in Polymer CoatingsIntroductionWhich Modeling and Simulation Technique Should I Use?Molecular Dynamics SimulationsDensity Functional TheoryCase StudiesAcknowledgmentsConflicts of InterestReferencesFuture Challenges and Applications of Polymer CoatingsIntroductionMaterials and MethodsPreparation of Al-SiC NanoparticlesAl-SiC Reinforced Epoxy Polymer Coatings FabricationAl-SiC Nanoparticles Reinforced Polymer Coatings CharacterizationTechno-Economic AnalysisResults and DiscussionFTIR SpectraRelative Humidity, Viscosity, and Ion PermeabilityMechanical PropertiesCorrosion ResistanceTechno-Economic AnalysisOther ApplicationsConclusion and Future ChallengesReferencesIncorporation of CeMo Nanocontainers Loaded with Inhibitors, Water, and Chlorine Microtraps into Anticorrosion Coatings onto ZK30IntroductionExperimentalCharacterization MethodsProduction of Nano-/MicromaterialsSelection of the Corrosion Inhibitor for the ZK30 AlloySynthesis, Application, and Characterization of Hybrid Coating with Embedded Nanocontainers in Magnesium Alloy ZK30ConclusionsAcknowledgmentsReferences
 
Next >