Search results for " blends"

showing 10 items of 54 documents

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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PET/PEN Blends of Industrial Interest as Barrier Materials. Part I. Many-Scale Molecular Modeling of PET/PEN Blends

2006

Mesoscale molecular simulations, based on parameters obtained through atomistic molecular dynamics and Monte Carlo calculations, have been used for modeling and predicting the behavior of PET/PEN blends. Different simulations have been performed in order to study and compare pure homopolymer blends with blends characterized by the presence of PET/PEN block copolymers acting as compatibilizer. A many-scale molecular modeling strategy was devised to evaluate PET/PEN blend characteristics, simulate phase segregation in pure PET/PEN blends, and demonstrate the improvement of miscibility due to the presence of the transesterification reaction products. The behavior of distribution densities and …

Materials sciencePolymers and Plasticsmolecular modelingOrganic ChemistryMonte Carlo methodPET/PEN blends Many-scale molecular modeling Transesterification reactionThermal diffusivityblendMiscibilityMolecular dynamicsPETPENPhase (matter)Materials ChemistryCopolymerOrganic chemistryGaseous diffusionPolymer blendComposite material
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Recycling polymer blends

2014

Materials scienceSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiChemical engineeringPolymer blendpolymer blends recycling processing
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Relaxation of photogenerated carriers in P3HT:PCBM organic blends.

2009

Relaxing in the sunlight. Long time-transient decays of photogenerated carriers in P3HT:PCBM blends for organic solar cells are interpreted in terms of the relaxation of hole carriers in a broad density of states. The after-pulse time-resolved microwave conductivity (TRMC) decays observed in P3HT:PCBM blends display a dependence on time close to t−β, independent of excitation intensity, in the 10 ns–1 μs range. This is explained in terms of the relaxation of carriers in a Gaussian density of states (DOS). The model is based on a demarcation level that moves with time by thermal release and retrapping of initially trapped carriers. The model shows that when the disorder is large the after-pu…

Materials scienceTime FactorsGeneral Chemical EngineeringThiophenesMolecular physicschemistry.chemical_compoundNuclear magnetic resonanceThermalSolar EnergyEnvironmental ChemistryGeneral Materials ScienceMicrowavesRange (particle radiation)photochemistryRelaxation (NMR)General EnergychemistryChlorobenzenesolar cellstransportCharge carrierPolymer blendFullerenesDispersion (chemistry)Excitationpolymer blendscharge carriersChemSusChem
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The Impact of Janus Nanoparticles on the Compatibilization of Immiscible Polymer Blends under Technologically Relevant Conditions

2014

Several hundred grams of Janus nanoparticles (d ≈ 40 nm) were synthesized from triblock terpolymers as compatibilizers for blending of technologically relevant polymers, PPE and SAN, on industry-scale extruders. The Janus nanoparticles (JPs) demonstrate superior compatibilization capabilities compared to the corresponding triblock terpolymer, attributed to the combined intrinsic properties, amphiphilicity and the Pickering effect. Straightforward mixing and extrusion protocols yield multiscale blend morphologies with "raspberry-like" structures of JPs-covered PPE phases in a SAN matrix. The JPs densely pack at the blend interface providing the necessary steric repulsion to suppress droplet …

Materials sciencematerials scienceDispersityta221Janus particlesGeneral Physics and AstronomyNanoparticleJanus particlesNanotechnologychemistry.chemical_compoundCopolymerGeneral Materials Scienceta218chemistry.chemical_classificationta214ta114General EngineeringPolymerCompatibilizationself-assemblychemistryChemical engineeringExtrusionnanoparticlesPolymer blendpolymer blendsACS Nano
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Compatibilization of Polypropylene/Polyamide 6 Blend Fibers Using Photo-Oxidized Polypropylene.

2018

The use of polyamide/polyolefin blends has gained importance and concern for years, but they also show some issues to be adequately addressed, such as the incompatibility between the two components. This is usually overcome by using suitable compatibilizers, typically based on functionalized polyolefins. However, there is only little information about the use of a degraded polyolefins to induce compatibilization. This is even truer, as far as polyamide 6/polypropylene (PA6/PP) blends are concerned. In this work, compatibilization of PA6/PP blends by using small amounts of photo-oxidized PP was investigated

Materials sciencepolyamide 602 engineering and technology010402 general chemistry01 natural scienceslcsh:TechnologyArticlechemistry.chemical_compoundUltimate tensile strengthGeneral Materials ScienceComposite materiallcsh:MicroscopySpinninglcsh:QC120-168.85Polypropylenelcsh:QH201-278.5compatibilizationlcsh:TIsotropyCompatibilizationpolymer blend021001 nanoscience & nanotechnology0104 chemical sciencesPolyolefinchemistrylcsh:TA1-2040Polyamidelcsh:Descriptive and experimental mechanicsPolymer blendlcsh:Electrical engineering. Electronics. Nuclear engineering0210 nano-technologylcsh:Engineering (General). Civil engineering (General)lcsh:TK1-9971polymer blendspolypropyleneMaterials (Basel, Switzerland)
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Reactive blending of a functionalized polyethylene with a semiflexible liquid crystalline copolyester

1996

Reactive blends (50/50 w/w) of a low molar mass polyethylene containing free carboxylic groups (PEox) and a semiflexible liquid crystalline polyester (SBH 1 : 1 : 2, by Eniricerche) have been prepared at 240 degrees C in a Brabender mixer, in the presence of Ti(OBu)(4) catalyst, for different mixing times (15, 60, and 120 min). In order to prove the formation of a PE-g-SBH copolymer, the blends have been fractionated by successive extractions with boiling toluene and xylene. The soluble fractions and the residues have been analyzed by Fourier transform infrared (FTIR) spectroscopy, thermogravimetry (TG and DTG), differential scanning calorimetry (DSC), and scanning electron microscopy (SEM)…

Molar massPolymers and PlasticsCOMPATIBILIZATIONChemistryGeneral ChemistryPolyethyleneCopolyesterTHERMOPLASTIC COMPOSITESSurfaces Coatings and FilmsPolyesterThermogravimetrychemistry.chemical_compoundDifferential scanning calorimetryPOLYMER BLENDSSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiChemical engineeringPolymer chemistryTRANSESTERIFICATIONMaterials ChemistryMORPHOLOGYThermal stabilityFourier transform infrared spectroscopyPOLYPROPYLENEPOLYESTERS
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