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Biobased Polymers for Environmental Applications

The first three papers describe research activities about poly(lactic acid) (PLA)-based blends and their composites with wheat bran that were carried out under the framework of the BIONTOP project ("Novel Packaging Films and Textiles with Tailored End of Life and Performance Based on Bio-based...

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Bibliographic Details
Main Author: Lazzeri, Andrea
Other Authors: Coltelli, Maria Beatrice, Cinelli, Patrizia
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Polymer
Barrier Properties
Chromium
Materials Science / Bicssc
Micromechanical Analysis
Stormwater Treatment
Biocomposites
Low Temperature
History Of Engineering And Technology / Bicssc
Bioretention Facilities
Binary Blends
Micromechanics
Chitin Nanofibrils
Creep
Technology: General Issues / Bicssc
Fibrillated Nanocellulose
Polyurethane-biochar Crosslinked Material
Mechanism Analysis
Extrusion Compounding
Natural Fibers
Paper Tissues
Aging Performance
Modified Filter Additive
Bacteria Cellulose
Active Molecules
Poly(lactic Acid) (pla)
Mechanical Tests
Poly Schiff Base
Bio-based Coatings
Phosphorus Release And Adsorption
Poly(lactic) Acid (pla)
Mechanical Properties
Poly(butylene Succinate-co-adipate) (pbsa)
Coatings
Rubber Waterstop
Adsorption
Hydrogel
Fracture Mechanics
Methyl Orange
Microscopic Examination
Polyphenols
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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300 |a 1 electronic resource (196 p.) 
653 |a polymer 
653 |a barrier properties 
653 |a chromium 
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653 |a micromechanical analysis 
653 |a stormwater treatment 
653 |a biocomposites 
653 |a low temperature 
653 |a History of engineering and technology / bicssc 
653 |a bioretention facilities 
653 |a binary blends 
653 |a micromechanics 
653 |a chitin nanofibrils 
653 |a creep 
653 |a Technology: general issues / bicssc 
653 |a fibrillated nanocellulose 
653 |a polyurethane-biochar crosslinked material 
653 |a mechanism analysis 
653 |a extrusion compounding 
653 |a natural fibers 
653 |a paper tissues 
653 |a aging performance 
653 |a modified filter additive 
653 |a bacteria cellulose 
653 |a active molecules 
653 |a poly(lactic acid) (PLA) 
653 |a mechanical tests 
653 |a poly Schiff base 
653 |a bio-based coatings 
653 |a phosphorus release and adsorption 
653 |a poly(lactic) acid (PLA) 
653 |a mechanical properties 
653 |a poly(butylene succinate-co-adipate) (PBSA) 
653 |a coatings 
653 |a rubber waterstop 
653 |a adsorption 
653 |a hydrogel 
653 |a fracture mechanics 
653 |a methyl orange 
653 |a microscopic examination 
653 |a polyphenols 
700 1 |a Coltelli, Maria Beatrice 
700 1 |a Cinelli, Patrizia 
700 1 |a Lazzeri, Andrea 
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520 |a The first three papers describe research activities about poly(lactic acid) (PLA)-based blends and their composites with wheat bran that were carried out under the framework of the BIONTOP project ("Novel Packaging Films and Textiles with Tailored End of Life and Performance Based on Bio-based Copolymers and Coatings", 837761) funded by the European Commission BBI-JU program. The melt fluidity, morphological, thermo-mechanical, creep and fracture properties of these promising biodegradable materials were considered and discussed. The reprint then includes two contributions (a review and a research article) written in the contest of ECOFUNCO project ("ECO Sustainable Multi FUNctional Biobased COATings with Enhanced Performance and End of Life Options", 837863) funded by the European Commission BBI-JU program. The review explores possible innovations in the field of solid and liquid biobased coatings, whereas the research article examines the modification of paper tissues with biobased additives for sustainable personal care applications. A research paper on the production of PLA-based composites to valorize hazelnut shell powder, which represents an agro-food waste, is also included in the reprint. Moreover, the reprint presents research papers investigating different biobased materials for environmental depollution, including hydrogel-based, bacterial cellulose-based and biochar-based materials. Finally, a research paper on the behavior of natural rubber during aging is presented. 

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