Search results for "bio-based"

showing 8 items of 28 documents

Development and characterization of a bio-based epoxy matrix for high-grade bio-based composites

2019

This study aims to develop 100% bio-based hemp/epoxy composites for semi-structural and structural applications. The thermal and mechanical performances of a 100% bio-based matrix derived from biomassare evaluated and reveal properties in the same order of magnitude as those obtained for polyepoxides based on DGEBA, that means a glass transition temperature of approximately 150°C and mechanical properties in the order of 120MPa for the maximum stress and 3.2 GPa for the tangent apparent modulus. This natural origin matrix is then used for the manufacture of composites reinforced with hemp rovings. The bending properties of these 100% bio-based materials are equivalent to those determined fo…

[CHIM.MATE] Chemical Sciences/Material chemistry100% bio-based compositeepoxy matrix[SPI] Engineering Sciences [physics]fibres de chanvre[CHIM.MATE]Chemical Sciences/Material chemistry[SPI.MECA.MSMECA]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Materials and structures in mechanics [physics.class-ph][SPI.MECA]Engineering Sciences [physics]/Mechanics [physics.med-ph]mechanical properties[SPI.MECA] Engineering Sciences [physics]/Mechanics [physics.med-ph][SPI]Engineering Sciences [physics]hemp fibresmatrice époxydique[CHIM] Chemical SciencesComposite 100% bio-sourcé[CHIM]Chemical Sciences[SPI.MECA.MSMECA] Engineering Sciences [physics]/Mechanics [physics.med-ph]/Materials and structures in mechanics [physics.class-ph]propriétés mécaniques
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Development and characterization of a bio-based epoxy matrix for high-grade bio-based composites

2019

This study aims to develop 100% bio-based hemp/epoxy composites for semi-structural and structural applications. The thermal and mechanical performances of a 100% bio-based matrix derived from biomassare evaluated and reveal properties in the same order of magnitude as those obtained for polyepoxides based on DGEBA, that means a glass transition temperature of approximately 150°C and mechanical properties in the order of 120MPa for the maximum stress and 3.2 GPa for the tangent apparent modulus. This natural origin matrix is then used for the manufacture of composites reinforced with hemp rovings. The bending properties of these 100% bio-based materials are equivalent to those determined fo…

[CHIM.MATE] Chemical Sciences/Material chemistry100% bio-based compositeepoxy matrix[SPI] Engineering Sciences [physics]fibres de chanvre[CHIM.MATE]Chemical Sciences/Material chemistry[SPI.MECA]Engineering Sciences [physics]/Mechanics [physics.med-ph]mechanical properties[SPI.MECA] Engineering Sciences [physics]/Mechanics [physics.med-ph][SPI]Engineering Sciences [physics]hemp fibresmatrice époxydique[CHIM] Chemical SciencesComposite 100% bio-sourcé[CHIM]Chemical Sciencespropriétés mécaniques[SPI.MECA.MSMECA] Engineering Sciences [physics]/Mechanics [physics.med-ph]/Materials and structures in mechanics [physics.class-ph]
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Directed Assembly of Cellulose Nanocrystals in Their Native Solid-State Template of a Processed Fiber Cell Wall

2021

Funding Information: I.S. thanks The Academy of Finland (grant no. 300364) for funding this work. C.D. acknowledges funding from FAPESP (grant 13/07932‐6). P.A.P. thanks the Emil Aaltonen Foundation and Academy of Finland (grant no. 315768) for funding and ESRF for beamtime at beamline D2am (experiment 02‐01‐885). Rita Hatakka is acknowledged for her assistance with the GPC measurements. Work of M.L. was supported by the Jane and Aatos Erkko Foundation. The work is a part of the FinnCERES Bioeconomy ecosystem. Publisher Copyright: © 2021 The Authors. Macromolecular Rapid Communications published by Wiley-VCH GmbH Copyright: Copyright 2021 Elsevier B.V., All rights reserved. Nanoparticle ass…

bio-based materialsMaterials scienceporosityPolymers and Plasticsselluloosananoparticle assemblyNanoparticlebio‐based materials02 engineering and technology010402 general chemistry01 natural scienceshuokoisuuschemistry.chemical_compoundHydrolysissymbols.namesakeAdsorptionnanorakenteetCell Wallacid hydrolysisMaterials ChemistryFiberCotton FiberCelluloseCelluloseHydrolysisOrganic Chemistry021001 nanoscience & nanotechnologycellulose0104 chemical scienceschemistryFiber cellChemical engineeringsymbolsNanoparticlesnanohiukkasetnanoselluloosaAcid hydrolysisvan der Waals force0210 nano-technology
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Life Cycle Energy and Environmental Assessment of the Thermal Insulation Improvement in Residential Buildings

2021

The refurbishment of the building stock is a key strategy towards the achievement of the climate and energy goals of the European Union. This study aims at evaluating the energy and environmental impacts associated with retrofitting a residential apartment to improve its vertical envelope thermal insulation. Two insulation materials, stone wool and cellulose fibers, are compared. The life cycle assessment methodology is applied assuming 1 m2 of retrofitted vertical envelope as functional unit. Moreover, to estimate the net energy and environmental benefits achievable in the retrofitted scenario compared with the non-retrofitted one, a second analysis is performed in which the system boundar…

bio-based materialsTechnologyControl and OptimizationPrimary energy020209 energyEnergy Engineering and Power Technology02 engineering and technology010501 environmental sciences01 natural sciencesCivil engineeringEnergy policylife cycle assessmentThermal insulationbuilding retrofitbuilding0202 electrical engineering electronic engineering information engineeringmedia_common.cataloged_instanceRetrofittingEnvironmental impact assessmentGebäudeElectrical and Electronic EngineeringEuropean unionEngineering (miscellaneous)Life-cycle assessment0105 earth and related environmental sciencesmedia_commonWohnungKlimawandelSettore ING-IND/11 - Fisica Tecnica AmbientaleNachhaltigkeitRenewable Energy Sustainability and the Environmentbusiness.industryTEnergiepolitiksustainabilityclimate changeSustainabilityEU-SILC 2010; building retrofit; thermal insulation; bio-based materials; energy; life cycle assessment; sustainabilityapartmentthermal insulationEnvironmental sciencebusinessBio‐based materials Building retrofit Energy Life cycle assessment Sustainability Thermal insulationEnergieenergy policyEnergy (miscellaneous)energy
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AMBIENTE COSTRUITO E SOSTENIBILITÀ – Materiali riciclati e Design for Disassembly tra ricerca e buone pratiche

2020

In the context of environmental emergency of which the construction sector is one of the main causes – since it consumes 40% of the (embodied and operational) energy and produces about a third of the total waste – and due to the ambitious objectives set by the international community and by many countries to reduce the environmental impact of buildings during their whole life cycle, this paper wants to make a contribution to the understanding of the state of the art on cycle-based research activities, sustainable experiments and good practices that the building industry and the academy have implemented in recent years. In particular, it refers to cycle-based theoretical and experimental act…

conclude infine mettendo in luce le criticità che ad oggi ne frenano la diffusione e individua possibili azioni di ricerca che possano favorire con il contributo della Tecnologia dell’Architettura la transizione verso questo nuovo paradigma.In un contesto di emergenza ambientale per il quale il settore edile è uno dei principali responsabili in quanto consuma il 40% dell’energia (incorporata e operativa) e produce circa un terzo dei rifiuti totali prodotti e in ragione degli obiettivi ambiziosi fissati dalla comunità internazionale e da numerosi Paesi per ridurre l’impatto ambientale delle costruzioni durante l’intero ciclo vita il presente articolo intende offrire un contributo alla conoscenza dello stato dell’arte su attività di ricerca sperimentazioni e buone pratiche sostenibili che il settore delle costruzioni e l’accademia hanno attivato negli ultimi anni. In particolare riferisce di azioni teoriche e sperimentali di impronta circolare che interessano innovazioni di processo e di prodotto alle diverse scale (‘macro’ ‘meso’ e ‘micro’) dell’ambiente costruito capaci di superare il tradizionale approccio lineare in luogo di un approccio che mira da un lato a estendere il suo ciclo di vita utile dall’altro a valutare nuovi materiali bio-based facilmente rigenerabili e con una bassa energia incorporataSettore ICAR/12 - Tecnologia Dell'Architettura
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Crystal structure of the diglycidyl ether of eugenol

2017

The diep­oxy monomer (DGE-Eu) was synthesized from eugenol by a three-step reaction. It consists of a 1,2,4-tris­ubstituted benzene ring substituted by diglycidyl ether, a meth­oxy group and a methyl­oxirane group. The three-membered oxirane rings are inclined to the benzene ring by 61.0 (3) and 27.9 (3)°. In the crystal, mol­ecules are linked by C—H⋯O hydrogen bonds, forming layers parallel to the ab plane.

crystal structureDiglycidyl etherEpoxideep­oxy thermoset prepolymer02 engineering and technologyCrystal structure010402 general chemistryRing (chemistry)01 natural scienceseugenol derivativeResearch CommunicationsCrystalchemistry.chemical_compound[ CHIM.CRIS ] Chemical Sciences/CristallographyPolymer chemistry[CHIM.CRIS]Chemical Sciences/Cristallography[CHIM]Chemical SciencesGeneral Materials Science[CHIM.CRIS] Chemical Sciences/CristallographyBenzeneComputingMilieux_MISCELLANEOUSbio-based mol­eculebio-based moleculeCrystallographyHydrogen bondGeneral Chemistry[PHYS.MECA]Physics [physics]/Mechanics [physics]021001 nanoscience & nanotechnologyCondensed Matter Physicshydrogen bonding3. Good health0104 chemical sciencesCrystallographyMonomerchemistryQD901-999oxiraneepoxy thermoset prepolymer[PHYS.MECA] Physics [physics]/Mechanics [physics]0210 nano-technology
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Effect of organoclay on morphology and properties of bio-based blends of Poly(lactic acid) and Polyamide 11

2012

organoclay bio-based blends morphology modification
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High-rise timber architecture: an opportunity for the sustainability of the built environment

2019

Bioeconomy, circular economy, land use reduction, sustainable use of natural resources, reduction of CO2 emissions in the atmosphere and recycling are the keywords which the building world must face in the near future, as the environmental emergency can no longer be postponed. In order to disseminate in the scientific community the different possibilities of timber as a sustainable building material throughout its whole life cycle and to provide the professionals with suitable decision-making tools for a conscious design, within the cultural and scientific scenario of the recent years, the paper serves as a moment of reflection highlighting how a closer integration between different sectors…

timber buildings vertical development sustainability bio-based economy environmental product declarationSettore ICAR/12 - Tecnologia Dell'Architettura
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