Polymers: concepts properties uses and sustainability
Week 1: What are polymers? What are their unique features?Why are polymers so common?Polymers: Molecular structureProcess, structure, propertyBiopolymersMolecular weight and distributionPolymerizationMacromolecular nature
Week 2: Simple concepts related to single macromoleculeRenewable sources for polymersPolymerization / depolymerizationStates of interestApplication based termsReuse and repurposeMolecular conformationsSize, mobility and flexibilityPolyelectrolytes
Week 3: Molecular arrangements and states of polymersStructures in biopolymersAmorphous / crystalline statesOrientationInteractionsKinetics of crystallizationGlass transition
Week 4: Polymeric systems of different kindStates in environmentLiquid crystalline polymersCopolymersBlends
Week 5: Blends, copolymers and compositesMicrostructure in polymersCompositesStress strain responseAdditives for polymeric systemsBlends / composites in recyclingPhysical / chemical crosslinkingMechanical properties
Week 6: Physico-chemical, mechanical and electrical properties of polymersPhysical and chemical agingSolutions: propertiesConducting polymersDielectric responsePlasticityProperties of composites
Week 7: Viscoelasticity in polymersViscoelasticity: introductionThermal responseViscoelasticity: characterizationViscoelasticity – simple modelsDynamic mechanical analysisDamping ApplicationsTime Temperature superpositionImpact and energy absorption
Week 8: Viscoelasticity in polymers / Interaction of polymers with other materialsTesting for applicationsProperties of blendsBiomimetic polymersAdvanced mechanicsViscoelastic response: examplesPolymer packagingPorous polymers / membranesPolymer at interfacesDiffusion in polymers
Week 9: Interaction of polymers with other materials / Polymers processing and recyclingtechniquesCompatibilizersBiopolymer applicationsAdhesives and PaintsDissolution and recoveryPolymerization kineticsPolymerization reactorsPolymer processing
Week 10: Polymers processing and recycling techniquesFlow simulationsProcessing for recyclingRecycle, up-down cyclingFlow behaviour - rheologyCrosslinkingConversion of polymers
Week 11: Polymers processing and recycling techniquesRheology and entanglementRheological modelsRheology and processingAbsorption and leachingSwelling of polymersViscosity for polymer processing
Week 12: Polymeric materials in natureMicroplastics, aerosols, sedimentsBiodegradation of polymersBiodegradable polymers
Week 2: Simple concepts related to single macromoleculeRenewable sources for polymersPolymerization / depolymerizationStates of interestApplication based termsReuse and repurposeMolecular conformationsSize, mobility and flexibilityPolyelectrolytes
Week 3: Molecular arrangements and states of polymersStructures in biopolymersAmorphous / crystalline statesOrientationInteractionsKinetics of crystallizationGlass transition
Week 4: Polymeric systems of different kindStates in environmentLiquid crystalline polymersCopolymersBlends
Week 5: Blends, copolymers and compositesMicrostructure in polymersCompositesStress strain responseAdditives for polymeric systemsBlends / composites in recyclingPhysical / chemical crosslinkingMechanical properties
Week 6: Physico-chemical, mechanical and electrical properties of polymersPhysical and chemical agingSolutions: propertiesConducting polymersDielectric responsePlasticityProperties of composites
Week 7: Viscoelasticity in polymersViscoelasticity: introductionThermal responseViscoelasticity: characterizationViscoelasticity – simple modelsDynamic mechanical analysisDamping ApplicationsTime Temperature superpositionImpact and energy absorption
Week 8: Viscoelasticity in polymers / Interaction of polymers with other materialsTesting for applicationsProperties of blendsBiomimetic polymersAdvanced mechanicsViscoelastic response: examplesPolymer packagingPorous polymers / membranesPolymer at interfacesDiffusion in polymers
Week 9: Interaction of polymers with other materials / Polymers processing and recyclingtechniquesCompatibilizersBiopolymer applicationsAdhesives and PaintsDissolution and recoveryPolymerization kineticsPolymerization reactorsPolymer processing
Week 10: Polymers processing and recycling techniquesFlow simulationsProcessing for recyclingRecycle, up-down cyclingFlow behaviour - rheologyCrosslinkingConversion of polymers
Week 11: Polymers processing and recycling techniquesRheology and entanglementRheological modelsRheology and processingAbsorption and leachingSwelling of polymersViscosity for polymer processing
Week 12: Polymeric materials in natureMicroplastics, aerosols, sedimentsBiodegradation of polymersBiodegradable polymers
