Search results for "Lactide"

showing 10 items of 47 documents

Beyond Biodegradability of Poly(lactic acid): Physical and Chemical Stability in Humid Environments

2017

International audience; Poly(lactic acid) (PLA) is the most traded biodegradable and biobased material. It is largely used as ecofriendly substitute of conventional plastics. Nevertheless, one of the main limiting factors is its water sensitivity. PLA reacts with water and is hydrolyzed during time, which determines its performance. Limited information related to the hydrolysis mechanism driven by water in vapor state is available in scientific literature. Literature is mainly focused on the effects of water in liquid state. This lack of information is of significant importance, since PLA interacts with water in both phases. This work was aimed to give a full depiction of the chemical and p…

AgingHydrolytic degradationPhosphate-buffered solutionGeneral Chemical EngineeringAmorphous fractions02 engineering and technologyPolylactide010402 general chemistry01 natural sciencesBioplasticHydrolysischemistry.chemical_compoundGlass-transition[SDV.IDA]Life Sciences [q-bio]/Food engineeringEnvironmental ChemistryOrganic chemistryRelative humidityRelative-humidityState of waterPoly(l-lactic acid)Renewable Energy Sustainability and the EnvironmentChemistryHydrolysisAmorphous phase[ SDV.IDA ] Life Sciences [q-bio]/Food engineeringtechnology industry and agricultureGeneral ChemistryBiodegradationequipment and supplies021001 nanoscience & nanotechnology0104 chemical sciencesLactic acidBioplasticLactide copolymersPLADegradation (geology)Chemical stabilityIn-vitro degradation0210 nano-technologyGlass transitionACS Sustainable Chemistry & Engineering
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New gellan gum-graft-poly(D,L-lactide-co-glycolide) copolymers as promising bioinks: Synthesis and characterization

2020

This research focused on the aim of tackling the urgent demand of printable biomaterials, hence we synthetized and characterized three gellan gum-graft-poly(d,l-lactide-co-glycolide) copolymers (GGm-PLGA a, b and c) which differed in the graft substitution degree. We investigated the effect of the polyester chain grafted onto hydrophilic backbone of gellan gum in terms of physicochemical properties and the ability of the system to print 3D cell laden constructs. In particular, we evaluated thermo-rheological, ionotropic crosslinking, shear thinning, swelling and stability properties of these copolymers and their derived biomaterials and findings related to the degree of functionalization. M…

Biocompatible Materials02 engineering and technologyBiochemistry03 medical and health scienceschemistry.chemical_compoundMicePolylactic Acid-Polyglycolic Acid CopolymerGraft copolymersStructural BiologyMaterials TestingmedicineCopolymerAnimalsMolecular Biology030304 developmental biologyMechanical Phenomena0303 health sciencesShear thinningTissue EngineeringChemistryPolysaccharides BacterialBioprintingGeneral Medicine3T3 Cells021001 nanoscience & nanotechnologyGellan gumPolyesterChemical engineeringSurface modificationPoly d l lactideInkPoly (DL-lactide-co-glycolide) (PLGA)Swellingmedicine.symptom0210 nano-technologyRheologyGellan gum (GG)
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Combination of silica nanoparticles with hydroxyapatite reinforces poly (l-lactide acid) scaffolds without loss of bioactivity

2013

Composite scaffolds of poly(l-lactide acid) and hydroxyapatite are of great interest in bone tissue engineering, but their mechanical properties are typically inferior to scaffolds of pure poly(l-lactide acid) due to agglomeration of the particles and weak interfacial component interaction. Fabrication strategies like double sonication of hydroxyapatite or increasing the amount of this inorganic filler do not effectively enhance the mechanical performance. In this study, poly(l-lactide acid) composites combining two types of fillers, mesoporous silica (SiO2) nanoparticles and hydroxyapatite, were developed to reinforce the poly(l-lactide acid) scaffold without any loss of bioactivity. A 5%…

BiomaterialsSilica nanoparticlesMaterials sciencePolymers and PlasticsChemical engineeringPoly-L-lactideComposite numberMaterials ChemistryBioengineeringBone tissue engineeringJournal of Bioactive and Compatible Polymers
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Optical rotatory dispersion and circular dichroism of poly-L-lactide. A reply to a letter by M. Goodman and M. D'alagni (1)

1967

Circular dichroismCrystallographyNuclear magnetic resonanceMaterials scienceVibrational circular dichroismPoly-L-lactideGeneral EngineeringOptical rotatory dispersionJournal of Polymer Science Part B: Polymer Letters
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Long-Chain Branched Poly(Lactide)s Based on Polycondensation of AB2 -type Macromonomers

2012

A series of long-chain branched poly(d-/l-lactide)s is synthesized in a two-step protocol by (1) ring-opening polymerization of lactide and (2) subsequent condensation of the preformed AB2 macromonomers promoted by different coupling reagents. The linear AB2 macromonomers are prepared by Sn(Oct)2-catalyzed ROP of D- and L-lactide with 2,2-bis(hydroxymethyl)butyric acid (BHB) as an initiator. Optimization of the polymerization conditions allows for the preparation of well-defined macromonomers (Mw/Mn = 1.09–1.30) with adjustable molecular weights (760–7200 g mol−1). The two-step approach of the synthesis comprises as well the coupling of these AB2 macromonomers and hence allows precise contr…

Condensation polymerLactidePolymers and PlasticsOrganic ChemistryCondensed Matter PhysicsBranching (polymer chemistry)Ring-opening polymerizationPolyesterchemistry.chemical_compoundchemistryPolymerizationReagentPolymer chemistryMaterials ChemistryHydroxymethylPhysical and Theoretical ChemistryMacromolecular Chemistry and Physics
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Characterization of electrospun poly(lactide) composites containing multiwalled carbon nanotubes

2019

The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: The authors would like to thank the Ministry of Education, Science and Technological Development, Republic of Serbia, for funding projects III45022 and 172056 and European Cooperation in Science and Technology (COST) action CA15107.

Conductive polymerMaterials scienceLactidePoly(lactide) nanofibersthermal properties02 engineering and technologymultiwalled carbon nanotubes010402 general chemistry021001 nanoscience & nanotechnologyCondensed Matter PhysicsMultiwalled carbon01 natural sciencesElectrospinning0104 chemical sciencesCharacterization (materials science)chemistry.chemical_compoundchemistryCeramics and Composites:NATURAL SCIENCES:Physics [Research Subject Categories]conductive polymerComposite material0210 nano-technologyPoly(lactide)electrospinning
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Thermal analysis applied to the characterization of degradation in soil of polylactide: I. Calorimetric and viscoelastic analyses

2010

[EN] An accelerated soil burial test has been performed on a commercial polylactide (PLA) for simulating non-controlled disposal. Degradation in soil promotes physical and chemical changes in polylactide properties, which can be characterized by Thermal Analysis techniques. Physical changes occurred in polylactide due to the degradation in soil were evaluated by correlating their calorimetric and visco-elastic properties. It is highly remarkable that each calorimetric scan offers specific and enlightening information. Degradation in soil affects the polylactide chains reorganization. A multimodal melting behavior is observed for buried PLA, degradation in soil also promotes the enlarging th…

Degradation in soilMaterials sciencePolymers and PlasticsSoil testPopulationDifferential scanning calorimetrySoil retrogression and degradationMaterials ChemistryComposite materialeducationThermal analysiseducation.field_of_studyLamellar thickness distributionMaterials compostosDynamic-Mechanical-Thermal Analysis (DMTA)TermoplàsticsDynamic mechanical analysisCondensed Matter PhysicsPolylactide (PLA)Mechanics of MaterialsMAQUINAS Y MOTORES TERMICOSSoil waterDegradation (geology)Differential Scanning Calorimetry (DSC)Free volumePolymer Degradation and Stability
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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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Suitability of blends from virgin and reprocessed polylactide: performance and energy valorization kinetics

2018

[EN] A blending strategy of virgin and reprocessed polylactide may be postulated as an alternative to reduce the material cost at industrial level, and as a valorisation route to plastic waste management of production scraps. The performance of blends prepared from virgin polylactide and polylactide mechanically reprocessed up to two cycles (PLA-V/R) was assessed in terms of thermo-oxidative stability, morphology, viscoelasticity and thermal kinetics for energetic valorisation. PLA-V/R blends showed appropriate thermo-oxidative stability. The amorphous nature of polylactide was preserved after blending. The viscoelastic properties showed an increment of the mechanical blend effectiveness, w…

EngineeringEnergetic valorisationbusiness.industryMaterials Science (miscellaneous)European Regional Development Fund02 engineering and technologyEnvironmental Science (miscellaneous)Ciència dels materials010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesReprocessingPolylactide (PLA)CIENCIA DE LOS MATERIALES E INGENIERIA METALURGICAMAQUINAS Y MOTORES TERMICOSForensic engineeringRegional scienceChristian ministryMechanical recyclingThermal analysis0210 nano-technologybusiness
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A methodology to assess the energetic valorization of bio-based polymers from the packaging industry: pyrolysis of reprocessed polylactide

2012

The energetic valorization process of bio-based polymers is addressed in this study, taking polylactide (PLA) as model. The pyrolysis of virgin and multiple-injected PLA was simulated by means of multi-rate linear-non-isothermal thermogravimetric experiments. A complete methodology, involving control of gases, thermal stability and thermal decomposition kinetics was proposed. The release of gases was monitored by Evolved Gas Analysis of the fumes of pyrolysis, by in-line FT-IR, with the aid of 2D-correlation IR characterization. A novel model to establish the thermal stability of PLAs under any linear heating profile was proposed. A kinetic strategy was methodically applied to assess the th…

EngineeringHot TemperatureSolucions polimèriquesEnvironmental EngineeringPolymersPolyestersBio basedBioengineeringThermal decomposition kineticsPackaging industrySpectroscopy Fourier Transform InfraredEvolved Gas Analysis (EGA)Waste Management and DisposalWaste managementRenewable Energy Sustainability and the Environmentbusiness.industryTermoplàsticsGeneral MedicineManufacturing engineeringKineticsReprocessingPolylactide (PLA)ThermogravimetryMAQUINAS Y MOTORES TERMICOSPosition (finance)Christian ministrybusinessPyrolysis
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