Overview
FrançaisABSTRACT
Over the last few years, the fabrication of plastics from renewable resources has become a new economic challenge. Biopolymers, the best known of which is cellulose, are polymers derived from living organisms or synthetized from renewable resources. These polymers have expanded significantly due to their biological origin and mostly to their biodegradable nature. Their uses as substitutes or even mixed to other polymers synthetized from hydrocarbons thus offer interesting applications.
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Nathalie JARROUX: Senior Lecturer at the University of Evry Val d'Essonne
INTRODUCTION
In recent years, the manufacture of plastics from renewable resources has emerged as a new economic challenge. This is linked to the growing awareness of the impact of plastic materials, whose polluting nature due to poor recycling poses a risk to our planet. Polymer chemistry was born of the knowledge of a common biopolymer: cellulose, better known as wood. In fact, cellulose belongs to the polysaccharide family, which is one of the biopolymer families. Biopolymers are polymers derived exclusively from living organisms, or from polymers synthesized from renewable resources. Over the past few years, these polymers have experienced a real boom, thanks to their biological origins and, above all, their biodegradable nature. Their use as substitutes for, or even blends with, other polymers synthesized from hydrocarbons offers interesting applications. Indeed, in a world where recyclable or biodegradable materials are becoming increasingly important, biopolymers are being put to ever greater use.
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CAN BE ALSO FOUND IN:
Home Materials Plastics and composites Biopolymers: various families, properties and applications
Home Innovations Eco-design and sustainable innovation Biopolymers: various families, properties and applications
Home Food–Chem–Bio industry processes Bioprocesses and bioproductions Biopolymers: various families, properties and applications
Home Food–Chem–Bio industry processes Green chemistry Biopolymers: various families, properties and applications
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Functional materials - Bio-based materials
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Biopolymers: different families, properties and applications
Documentation sources
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References and websites
Standards
- Emballage - Exigences relatives aux emballages valorisables par compostage et biodégradation - Programme d'essai et critères d'évaluation de l'acceptation finale - NF EN 13432 - Novembre 2000
- Matériaux biodégradables pour l'agriculture et l'horticulture - Produits de paillage - Exigences et méthodes d'essai des emballages - NF U52-001 - Février 2005
Organizations
ADEME http://www.ademe.fr
Bioplastics Club http://www.european-bioplastics.org/php/id=371
University of Natural Resources and Applied Life Sciences Vienna, Department for Agrobiotechnology IFA - Tulln Institute for Natural...
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