Search results for "polymer blends"

showing 10 items of 37 documents

An Additive Model to Predict the Rheological and Mechanical Properties of Polypropylene Blends Made by Virgin and Reprocessed Components

2021

In this work, an additive model for the prediction of the rheological and mechanical properties of monopolymer blends made by virgin and reprocessed components is proposed. A polypropylene sample has been reprocessed more times in an extruder and monopolymer blends have been prepared by simulating an industrial process. The scraps are exposed to regrinding and are melt reprocessed before mixing with the virgin polymer. The reprocessed polymer is, then, subjected to some thermomechanical degradation. Rheological and mechanical experimental data have been compared with the theoretical predictions. The results obtained showed that the values of this simple additive model are a very good fit fo…

0209 industrial biotechnologyMaterials scienceAdditive model Monopolymer blends Polypropylene ReprocessingPlastics extrusionMixing (process engineering)02 engineering and technologyManagement Monitoring Policy and Lawchemistry.chemical_compound020901 industrial engineering & automationRheologyGeneral Materials ScienceComposite materialAdditive modelWaste Management and Disposaladditive modelreprocessinglcsh:Environmental sciencesPolypropylenechemistry.chemical_classificationlcsh:GE1-350monopolymer blendsPolymer021001 nanoscience & nanotechnologySettore ING-IND/22 - Scienza E Tecnologia Dei Materialichemistry0210 nano-technologypolypropyleneRecycling
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The Effects of Nanoclay on the Mechanical Properties, Carvacrol Release and Degradation of a PLA/PBAT Blend

2020

The formulation of polymeric films endowed with the abilities of controlled release of antimicrobials and biodegradability is the latest trend of food packaging. Biodegradable polymer (Bio-Flex&reg

Biodegradable polymer blends Drug release Essential oil Film blowing Green composites Hydrolytic degradation Mechanical properties Montmorillonite PBAT PLAFiller (packaging)Materials science02 engineering and technologymontmorillonitemechanical properties010402 general chemistry01 natural scienceslcsh:TechnologyArticleessential oilchemistry.chemical_compoundbiodegradable polymer blendsGeneral Materials ScienceCarvacrolplahydrolytic degradationlcsh:Microscopydrug releaselcsh:QC120-168.85Nanocompositelcsh:QH201-278.5green compositeslcsh:TpbatBiodegradation021001 nanoscience & nanotechnologyControlled releaseBiodegradable polymer0104 chemical sciencesFood packagingSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiMontmorilloniteChemical engineeringchemistryfilm blowinglcsh:TA1-2040lcsh:Descriptive and experimental mechanicslcsh:Electrical engineering. Electronics. Nuclear engineering0210 nano-technologylcsh:Engineering (General). Civil engineering (General)lcsh:TK1-9971Materials
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Phase diagram of polymer blends in confined geometry

2001

Within self-consistent field theory we study the phase behavior of a symmetrical binary AB polymer blend confined into a thin film. The film surfaces interact with the monomers via short range potentials. One surface attracts the A component and the corresponding smei-infinite system exhibits a first order wetting transition. The surface interaction of the opposite surface is varied as to study the crossover from capillary condensation for symmetric surfaces fields to the interface localization/delocalization transition for antisymmetric surface fields. In the former case the phase diagram has a single critical point close to the bulk critical point. In the latter case the phase diagram exh…

Capillary waveMaterials scienceCapillary condensationCondensed matter physicsStatistical Mechanics (cond-mat.stat-mech)FOS: Physical sciencesFísicaCondensed Matter - Soft Condensed MatterCondensed Matter PhysicsAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsTricritical pointWetting transitionCritical point (thermodynamics)Polymer blendsMaterials ChemistrySoft Condensed Matter (cond-mat.soft)Ising modelPhysical and Theoretical ChemistryCritical exponentConfined geometrySpectroscopyCondensed Matter - Statistical MechanicsPhase diagram
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The role of crystalline, mobile amorphous and rigid amorphous fractions in the performance of recycled poly (ethylene terephthalate) (PET)

2012

[EN] The action of thermo-mechanical degradation induced by mechanical recycling of poly(ethylene terephthalate) was simulated by successive injection moulding cycles. Degradation reactions provoked chain scissions and a reduction in molar mass mainly driven by the reduction of diethyleneglycol to ethylene glycol units in the flexible domain of the PET backbone, and the formation of -OH terminated species with shorter chain length. The consequent microstructural changes were quantified taking into account a three-fraction model involving crystalline, mobile amorphous (MAF) and rigid amorphous fractions (RAF). A remarkable increase of RAF, to a detriment of MAF was observed, while the percen…

EthyleneSolucions polimèriquesPolymers and PlasticsInjection mouldingDifferential scanning calorimetry (DSC)Crystalline fractionsMechanical propertiesThermo-mechanical degradationchemistry.chemical_compoundDegradationAmorphous materialsPolymer blendsMaterials ChemistryMechanical recyclingRecyclingComposite materialDiethyleneglycolPoly(ethylene terephthalate) (PET)Injection moldingMolar massMechanical featureRecycled poly(ethylene terephthalate)Microstructural changesCondensed Matter PhysicsChain scissionRigid-amorphous fractionMechanics of MaterialsMAQUINAS Y MOTORES TERMICOSPolymer blendMaterials scienceMechanical performanceViscoelasticityEthyleneDifferential scanning calorimetrySegmental dynamicsInfrared analysis (FT-IR)Degradation reactionDifferential scanning calorimetryInjection mouldingPolyethylene terephthalatesEthylene glycolTermoplàsticsCrystalline materialsShorter chainsAmorphous solidchemistryGlass-rubber relaxationProcessing cyclesEthylene glycol
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Heat-Resistant Fully Bio-Based Nanocomposite Blends Based on Poly(lactic acid)

2013

Poly(lactic acid) (PLA) is melt mixed with polyamide 11 (PA11) to obtain a heat-resistant fully bio-based blend with PLA as the dominant component. The goal is achieved by adding small amounts of organoclay (OMMT), which is used to manipulate the blend microstructure. The selective positioning of the OMMT inside the PA11 and at the PLA/PA11 interface turns the blend morphology from drop/matrix into co-continuous at high PLA content (70 wt%). The OMMT-rich PA11 framework that interpenetrates the major PLA phase effectively contributes to bear stresses, and the nanocomposite blend keeps its structural integrity up to ≈160 °C, i.e., about 100 °C above the PLA glass transition.

Heat resistantNanocompositeMaterials sciencenanocompositePolymers and PlasticsBIOPOLYMERSGeneral Chemical EngineeringDrop (liquid)Organic Chemistrybiodegradable polymerMicrostructureNANOCOMPOSITESLactic acidchemistry.chemical_compoundPOLYMER BLENDSchemistryPolyamideMaterials ChemistryPLAOrganoclayComposite materialGlass transitionMacromolecular Materials and Engineering
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“Compatibilization” through Elongational Flow Processing of LDPE/PA6 Blends

2018

Polyamide/polyolefin blends have gained attention from the academia and the industry for several years. However, in order to optimize their properties, some drawbacks such as chemical incompatibility must be adequately overcome. This can be done by adding suitable compatibilizers. On the other hand, it is less known that suitable processing techniques may also lead to significant results. In a previous work on a low-density polyethylene/polyamide 6 (LDPE/PA6) blend, we found that the orientation due to elongational flow processing conditions could lead to an unexpected brittle&ndash

Materials science02 engineering and technology010402 general chemistryMethacrylate01 natural scienceslcsh:TechnologyArticlechemistry.chemical_compoundGeneral Materials ScienceComposite materialDuctilitylcsh:Microscopylcsh:QC120-168.85lcsh:QH201-278.5compatibilizationlcsh:TCompatibilizationPolymer blendPolyethylene021001 nanoscience & nanotechnology0104 chemical sciencesPolyolefinLow-density polyethylenechemistrylcsh:TA1-2040Polyamidelcsh:Descriptive and experimental mechanicsprocessingPolymer blendlcsh:Electrical engineering. Electronics. Nuclear engineeringelongational flow0210 nano-technologylcsh:Engineering (General). Civil engineering (General)lcsh:TK1-9971polymer blendsMaterials
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Morphology, Rheological and Mechanical Properties of Isotropic and Anisotropic PP/rPET/GnP Nanocomposite Samples

2021

The effect of graphene nanoplatelets (GnPs) on the morphology, rheological, and mechanical properties of isotropic and anisotropic polypropylene (PP)/recycled polyethylene terephthalate (rPET)-based nanocomposite are reported. All the samples were prepared by melt mixing. PP/rPET and PP/rPET/GnP isotropic sheets were prepared by compression molding, whereas the anisotropic fibers were spun using a drawing module of a capillary viscometer. The results obtained showed that the viscosity of the blend is reduced by the presence of GnP due to the lubricating effect of the graphene platelets. However, the Cox–Merz rule is not respected. Compared to the PP/rPET blend, the GnP led to a slight incre…

Materials scienceGeneral Chemical EngineeringModulusCompression moldingmechanical propertiesArticlechemistry.chemical_compoundnanocompositesPolyethylene terephthalateGeneral Materials ScienceComposite materialQD1-999Elastic moduluspolyethylene terephthalate (PET)PolypropyleneNanocompositenanocompositepolypropylene (PP)Viscometerpolymer blendgraphene nanoplatelets (GnPs)ChemistrychemistryrheologyPolymer blendpolymer blendsNanomaterials
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Cooperativity Scaling and Free Volume in Plasticized Polylactide

2019

The authors would like to thank the region Haute Normandie for their financial support and the acquisition of the Broadband Dielectric Spectrometer. R.G. acknowledges U.S. National Science Foundation (Grant no. DMR-1725188) for the acquisition of PAL spectrometer. The experimental evidence of the increase of activation energy associated with the super Arrhenius behavior governing amorphous polylactide by free volume variations has been obtained through a combination of calorimetric, dielectric, and positron annihilation lifetime measurements. The amount of free volume in polylactide was controlled by the amount of acetyltributylcitrate plasticizer in the composition. Plasticization is shown…

Materials scienceMatériaux [Sciences de l'ingénieur]Polymers and Plasticsgenetic structuresThermodynamicsCooperativity02 engineering and technologyActivation energyDielectric010402 general chemistry01 natural sciences[SPI.MAT]Engineering Sciences [physics]/MaterialsInorganic ChemistryFragilityBiopolymersmiscible polymer blendsMaterials ChemistryActivation energycharacteristic length[PHYS]Physics [physics]Drop (liquid)Organic polymersOrganic Chemistry021001 nanoscience & nanotechnology0104 chemical sciencesAmorphous solidfragilty[CHIM.POLY]Chemical Sciences/PolymersVolume (thermodynamics)positron-annihilationtemperature-dependence[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]0210 nano-technologyGlass transitionPlastics[PHYS.COND.CM-SCM]Physics [physics]/Condensed Matter [cond-mat]/Soft Condensed Matter [cond-mat.soft]dynamic heterogeneity
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Processing – morphology – property relationships of polyamide 6/polyethylene blend–clay nanocomposites

2013

In this work, we studied the effect of the method of preparation and of reprocessing on the morphology and, con- sequently, on the physical properties of polyamide 6 (PA6)/ high density polyethylene (HDPE)-clay nanocomposite blends in the presence of different compatibilizers. In particular, the nanocomposites were obtained by melt mixing using a co- rotating twin screw extruder (E1). The blends thus obtained were re-extruded (E2) under the same operating conditions. Moreover, blends with the same final composition were produced using a masterbatch of the compatibilizer with the clay prepared in a separated stage in a batch mixer (MB). All the materials were characterized by scanning electr…

Materials sciencePolymers and PlasticsGeneral Chemical Engineeringlcsh:Chemical technologyNanocompositeschemistry.chemical_compoundPolymer blendslcsh:TA401-492Materials ChemistryOrganoclaylcsh:TP1-1185Physical and Theoretical ChemistryComposite materialNanocompositeOrganic ChemistryCompatibilizationPolyethylenenanocomposites organoclay compatibilization polymer blendschemistryMasterbatchPolyamidelcsh:Materials of engineering and construction. Mechanics of materialsPolymer blendHigh-density polyethyleneOrganoclayCompatibilization
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Physical properties of virgin-recycled ABS blends: Effect of post-consumer content and of reprocessing cycles

2012

Abstract Virgin/post-consumer ABS (pc-ABS) blends were re-processed and re-formed up to three times. The effect of pc-ABS content and of reprocessing cycles on the physical properties of the prepared blends was evaluated by mechanical tests (tensile, flexural and impact tests) and by rheological and thermo-mechanical measurements. The processability of pc-ABS blends was not substantially different by that of virgin ABS up to two recycling steps even if the third one induced a slightly decrease of viscosity, more remarkable on increasing the pc-ABS content. The mechanical and thermo-mechanical properties of the samples worsened on increasing the level of pc-ABS and after each reprocessing op…

Materials sciencePolymers and PlasticsOrganic ChemistryGeneral Physics and AstronomyImpact testViscositySettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiABS Recycling Polymer blends Mechanical propertiesFlexural strengthRheologyUltimate tensile strengthMaterials ChemistryPolymer blendComposite materialEuropean Polymer Journal
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