Search results for "homogenization"

showing 4 items of 74 documents

Toward Sustainable PLA-Based Multilayer Complexes with Improved Barrier Properties

2019

Poly(lactic acid) or PLA is currently considered as one of the most promising substitutes of conventional plastics, with low environmental impact, especially for food packaging applications. Nevertheless, some drawbacks, such as high permeability to oxygen, are still limiting its industrial applications. The objective of this study was to highly increase the oxygen barrier performance of PLA without compromising its sustainable nature and following the principles of circular economy perspective. Coproducts coming from mill industries, such as wheat gluten proteins (WG), were used to produce PLA-WG-PLA multilayer complexes with improved barrier performance. Different technologies of industri…

plastic materialCorona treatment[SDV]Life Sciences [q-bio]General Chemical EngineeringHot-pressingWheat glutenemballage alimentaire02 engineering and technologyHot pressing01 natural sciencesOXYGEN[SPI]Engineering Sciences [physics]CARBON-DIOXIDEchemistry.chemical_compoundSurface modificationWheat glutenPolylactic acidCoatingComputingMilieux_MISCELLANEOUSPOLY(LACTIC ACID)Spin coatingsustainable developmentplastiqueANTIMICROBIAL PROPERTIES021001 nanoscience & nanotechnologyFood packagingdéveloppement durableBiobased and biodegradable polymers0210 nano-technologyMaterials scienceWATER-VAPOR BARRIERGLASS-TRANSITIONPROTEIN ISOLATESpin coatingNanotechnologyengineering.materialFILMS010402 general chemistry12. Responsible consumptionPoly(lactic acid) PLAEnvironmental ChemistryEFFICIENT GASRenewable Energy Sustainability and the EnvironmentPOLYLACTIC ACIDHigh-pressure homogenizationCorona treatmentGeneral Chemistry0104 chemical scienceschemistryengineeringSurface modificationacide lactiqueACS Sustainable Chemistry & Engineering
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COMPUTATIONAL HOMOGENIZATION OF POLYCRYSTALLINE MATERIALS WITH PORES: A THREE-DIMENSIONAL GRAIN BOUNDARY FORMULATION

2012

In this study, the influence of porosity on the elastic effective properties of polycrystalline materials is investigated using a 3D grain boundary micro mechanical model. The volume fraction of pores, their size and distribution can be varied to better simulate the response of real porous materials. The formulation is built on a boundary integral representation of the elastic problem for the grains, which are modeled as 3D linearly elastic orthotropic domains with arbitrary spatial orientation. The artificial polycrystalline morphology is represented using 3D Voronoi Tessellations. The formulation is expressed in terms of intergranular fields, namely displacements and tractions that play …

porosityMaterials scienceMicromechanicsboundary element method.Orthotropic materialHomogenization (chemistry)Computer Science ApplicationsPolycrystalline materialModeling and SimulationGrain boundaryComposite materialmicromechanicSettore ING-IND/04 - Costruzioni E Strutture AerospazialiMaterial propertiesPorosityPorous mediumBoundary element methodJournal of Multiscale Modelling
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Estimates of the modeling error generated by homogenization of an elliptic boundary value problem

2016

Erworben im Rahmen der Schweizer Nationallizenzen (http://www.nationallizenzen.ch)

posteriori error estimateshomogenizationmodeling error010103 numerical & computational mathematics01 natural sciencesHomogenization (chemistry)Elliptic boundary value problem510 Mathematicselliptic boundary value problemsBoundary value problemNumerical testsperiodic structures0101 mathematicsMathematicsHomogenization510: Mathematik010102 general mathematicsMathematical analysisElliptic boundary value problemPeriodic structureModeling error10123 Institute of MathematicsComputational MathematicsExact solutions in general relativityRate of convergenceNorm (mathematics)A priori and a posteriori2605 Computational MathematicsA posteriori error estimateJournal of Numerical Mathematics
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Advances in Nanoliposomes Production for Ferrous Sulfate Delivery

2020

In this study, a continuous bench scale apparatus based on microfluidic fluid dynamic principles was used in the production of ferrous sulfate-nanoliposomes for pharmaceutical/nutraceutical applications, optimizing their formulation with respect to the products already present on the market. After an evaluation of its fluid dynamic nature, the simil-microfluidic (SMF) apparatus was first used to study the effects of the adopted process parameters on vesicles dimensional features by using ultrasonic energy to enhance liposomes homogenization. Subsequently, iron-nanoliposomes were produced at different weight ratios of ferrous sulfate to the total formulation components (0.06, 0.035, 0.02, an…

sonicationMaterials sciencenanoliposomeSonicationMicrofluidicslcsh:RS1-441Pharmaceutical Sciencenanoliposome; drug delivery; ferrous sulfate; simil-microfluidic apparatus; sonication;02 engineering and technology030226 pharmacology & pharmacyHomogenization (chemistry)ArticleFerrouslcsh:Pharmacy and materia medica03 medical and health sciences0302 clinical medicineLiposomeVesiclesimil-microfluidic apparatus021001 nanoscience & nanotechnologyChemical engineeringdrug deliveryDrug deliveryUltrasonic sensor0210 nano-technologyferrous sulfatePharmaceutics
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