0000000001326935

AUTHOR

Monica Ek

showing 8 related works from this author

Thermal kinetics for the energy valorisation of polylactide/sisal biocomposites

2018

[EN] The thermal stability and decomposition kinetics of PLA/sisal biocomposites was discussed to evaluate the suitability of their use in energy recovery processes such as pyrolysis and combustion. The influence of the addition of sisal up to 30%wt, the presence of coupling agent, and the atmosphere of operation, i.e. inert or oxidative was discussed by means of multi-rate linear non-isothermal thermogravimetric experiments. All biocomposites showed a mean high heating value of 15 MJ/kg indicating their suitability for energy recovery processes. The thermal requirements of PLA/sisal decomposition were assessed in terms of onset decomposition temperature and apparent activation energy. A mi…

Materials science02 engineering and technologyCombustionBiocomposites; Energy valorisation; Kinetics; Natural fibres; Polylactide (PLA); Thermal decomposition; Instrumentation; Condensed Matter Physics; Physical and Theoretical Chemistry020401 chemical engineeringThermal stability0204 chemical engineeringPhysical and Theoretical ChemistryThermal decompositionInstrumentationSISALcomputer.programming_languageEnergy recoveryBiocompositesMaterials compostosTermoplàsticsThermal decompositionCiència dels materials021001 nanoscience & nanotechnologyCondensed Matter PhysicsDecompositionKineticsPolylactide (PLA)Chemical engineeringEnergy valorisationMAQUINAS Y MOTORES TERMICOSValorisation0210 nano-technologyNatural fibrescomputerPyrolysisThermochimica Acta
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Water absorption and hydrothermal performance of PHBV/sisal biocomposites

2014

[EN] The performance of biocomposites of poly(hydroxybutyrate-co-valerate) (PHBV) and sisal fibre subjected to hydrothermal tests at different temperatures above the glass transition of PHBV (TH ¿ 26, 36 and 46 C) was evaluated in this study. The influences of both the fibre content and presence of coupling agent were focused. The water absorption capability and water diffusion rate were considered for a statistical factorial analysis. Afterwards, the physico-chemical properties of water-saturated biocomposites were assessed by Fourier-Transform Infrared Analysis, Size Exclusion Chromatography, Differential Scanning Calorimetry and Scanning Electron Microscopy. It was found that the water d…

Statistical factorial analysis (SFA)Materials scienceAbsorption of waterBiocompositesPolymers and PlasticsMaterials compostosTermoplàsticsCondensed Matter PhysicsHydrothermal degradationHydrothermal circulationLignocellulosic fibresSisalPoly(hydroxybutyrate-co-valerate) (PHBV)Mechanics of MaterialsMAQUINAS Y MOTORES TERMICOSMaterials ChemistrySisal fibreComposite materialGlass transitioncomputerSISALcomputer.programming_language
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Effect of sisal and hydrothermal ageing on the dielectric behaviour of polylactide/sisal biocomposites

2017

[EN] The dielectric properties of virgin polylactide (PLA) and its reinforced composites with different weight amounts of sisal fibres were assessed at broad temperature (from - 130 degrees C to 130 degrees C) and frequency ranges (from 10(-2)-10(7) Hz), before and after being subjected to accelerated hydrothermal ageing. The synergetic effects of both the loading of sisal and hydrothermal ageing were analysed by means of dielectric relaxation spectra. The relaxation time functions were evaluated by the Havriliak-Negami model, substracting the ohmic contribution of conductivity. The intramolecular and intermolecular relaxations were respectively analysed by means of Arrhenius and Vogel-Fulc…

Dielectric spectroscopyMaterials scienceSegmental cooperativity02 engineering and technologyDielectric010402 general chemistry01 natural sciencesHydrothermal circulationSisalCrystallinityDegradationDynamic fragilityPoly(lactide) (PLA)Composite materialCrystallinitySISALcomputer.programming_languageBiocompositesMaterials compostosTermoplàsticsGeneral EngineeringHydrothermal ageingINGENIERIA DE LOS PROCESOS DE FABRICACION021001 nanoscience & nanotechnology0104 chemical sciencesDielectric spectroscopyNatural fibreAgeingMAQUINAS Y MOTORES TERMICOSCeramics and CompositesDegradation (geology)0210 nano-technologycomputer
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Thermal and thermo-oxidative stability and kinetics of decomposition of PHBV/sisal composites

2017

The decomposition behaviours of composites made of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) and sisal were assessed in terms of thermal stability and decomposition kinetics, under inert and oxidative conditions, by means of multi-rate linear non-isothermal thermogravimetric experiments. A statistical design of experiments was applied to study the influence of the addition of sisal (0-10-20-30%wt), the presence coupling agent (Yes/No) and the applied conditions of work (inert or oxidative). An improvement of the thermal and thermo-oxidative stability of PHBV with the addition of sisal was observed for all cases. An accurate methodology based on iso-conversional methods was applied…

thermo-oxidative decompositionMaterials scienceGeneral Chemical EngineeringKinetics02 engineering and technology010402 general chemistry01 natural sciencesnatural fibresThermalwaste-to-fuelChemical Engineering (all)Thermal stabilityComposite materialthermal decompositionSISALcomputer.programming_languageInertBiocompositesMaterials compostosTermoplàsticsChemistry (all)Thermal decompositionpoly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV)General Chemistrysisal021001 nanoscience & nanotechnologyBiocomposites; kinetics; natural fibres; poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV); sisal; thermal decomposition; thermo-oxidative decomposition; waste-to-fuel; Chemistry (all); Chemical Engineering (all)Decomposition0104 chemical scienceskinetics0210 nano-technologycomputerChemical Engineering Communications
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Relevant factors for the eco-design of polylactide/sisal biocomposites to control biodegradation in soil in an end-of-life scenario

2017

[EN] The eco-design considers the factors to prepare biocomposites under an end-of-life scenario. PLA/sisal biocomposites were obtained from amorphous polylactide and sisal loadings of 10, 20 and 30 wt% with and without coupling agent, and subjected to biodegradation in soil according to standard IS0846. Mass loss, differential scanning calorimetry and size-exclusion chromatography were used for monitoring biodegradation. A statistical factorial analysis based on the molar mass M-n, and crystallinity degree X-c pointed out the relevance and interaction of amount of fibre and use of coupling agent with the time of burial in soil., During the preparation of biocomposites, chain scission provo…

Materials scienceSolucions polimèriquesPolymers and Plastics02 engineering and technology010402 general chemistry01 natural sciencesSisalDegradationDifferential scanning calorimetryStatistical factorial analysisSize exclusion chromatographyDifferential scanning calorimetryMaterials ChemistryComposite materialSISALcomputer.programming_languageMaterials compostosTermoplàsticsBiodegradation021001 nanoscience & nanotechnologyCondensed Matter Physics0104 chemical sciencesAmorphous solidPolylactide (PLA)Natural fibreMechanics of MaterialsMAQUINAS Y MOTORES TERMICOSDegradation (geology)Biodegradation in soilBiocomposite0210 nano-technologycomputerBiocompositeDesign of experiments
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Impact of hydrothermal ageing on the thermal stability, morphology and viscoelastic performance of PLA/sisal biocomposites

2016

The influence of the combined exposure to water and temperature on the behaviour of polylactide/sisal biocomposites coupled with maleic acid anhydride was assessed through accelerated hydrothermal ageing. The biocomposites were immersed in water at temperatures from 65 to 85 °C, between the glass transition and cold crystallisation of the PLA matrix. The results showed that the most influent factor for water absorption was the percentage of fibres, followed by the presence of coupling agent, whereas the effect of the temperature was not significant. Deep assessment was devoted to biocomposites subjected to hydrothermal ageing at 85 °C, since it represents the extreme degrading condition. Th…

Mechanical fibre effectivenesSolucions polimèriquesMorphology (linguistics)Materials sciencePolymers and PlasticsMaleic acidPerformance02 engineering and technology010402 general chemistry01 natural sciencesSisalViscoelasticityHydrothermal circulationDegradationchemistry.chemical_compoundCIENCIA DE LOS MATERIALES E INGENIERIA METALURGICAMaterials ChemistryThermal stabilityComposite materialSISALcomputer.programming_languageBiocompositesTermoplàsticsHydrothermal ageing021001 nanoscience & nanotechnologyCondensed Matter Physics0104 chemical sciencesPolylactide (PLA)chemistryMechanics of MaterialsAgeingMAQUINAS Y MOTORES TERMICOSDegradation (geology)0210 nano-technologyNatural fibrescomputerPolymer Degradation and Stability
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Hydrothermal ageing of polylactide/sisal biocomposites. Studies of water absorption behaviour and Physico-Chemical performance

2014

An accelerated hydrothermal degrading test was designed in order to analyse the synergic effect of water and temperature on PLA/sisal biocomposites with and without coupling agent. As well, the physicochemical properties of biocomposites were monitored along the hydrothermal test by means of Scanning Electron Microscopy, Size Exclusion Chromatography and Differential Scanning Calorimetry. The addition of fibre induced higher water absorption capability and promoted physical degradation, as observed in the surface topography. During the processing of biocomposites and throughout the hydrothermal ageing, a reduction of molecular weight due to chain scission was found. As a consequence, a fast…

Materials scienceAbsorption of waterBiocompositesSolucions polimèriquesPolymers and PlasticsTermoplàsticsCondensed Matter PhysicsHydrothermal degradationHydrothermal circulationSisalPolylactide (PLA)Mechanics of MaterialsMAQUINAS Y MOTORES TERMICOSMaterials ChemistryWater absorptionComposite materialcomputerNatural fibresSISALcomputer.programming_language
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Water-stable cellulose fiber foam with antimicrobial properties for bio based low-density materials

2018

New bio-based packaging materials are highly interesting for replacing conventional fossil based products for a more sustainable society. Waterstable cellulose fiber foams have been produced in a simple one-batch foam-forming process with drying under ambient conditions. The cellulose fiber foams have a low density (33–66 kg/m3) and can inhibit microbial growth; two highly valuable features for insulating packaging materials, especially in combination with stability in water. Cationic chitosan and/or polyvinylamine have been added during the foamforming process to give the foams water-stability and antimicrobial properties. The structural and mechanical properties of the cellulose fiber foa…

antibacterialinsulationpolyvinylaminepackagingwet-stablechitosancitric acidantifungalcellulosic
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