USE OF BIOSYNTHETIC, BIODEGRADABLE THERMOPLASTICS AND ELASTOMERS FROM RENEWABLE RESOURCES: THE PROS AND CONS

ALEXANDER STEINBUECHEL

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USE OF BIOSYNTHETIC, BIODEGRADABLE THERMOPLASTICS AND ELASTOMERS FROM RENEWABLE RESOURCES: THE PROS AND CONS

机译：使用来自可再生资源的生物合成，生物可降解热塑塑料和弹性体：利弊

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For several reasons, biodegradable polymers have recently attracted much public and industrial interest. This contribution focuses on microbial aspects of the biodegradability of polymeric materials in the environment. It provides an overview on biodegradability and the mechanisms of degradation of relevant natural and technical polymers. Almost all biosynthetic polymers, which are readily available from renewable resources, are biodegradable within a reasonable time scale. Many semibiosynthetic and even chemosynthetic polymers are also biodegradable if they contain chemical bonds which also occur in natural compounds. Only a few polymers are truly persistent. Arguments for and against the use of such polymers are summarized.

机译：由于多种原因，可生物降解的聚合物近来引起了公众和工业的极大兴趣。该贡献集中于环境中聚合材料的生物降解性的微生物方面。它概述了有关生物降解性以及相关天然和工业聚合物降解的机理。几乎所有可从可再生资源获得的生物合成聚合物都可以在合理的时间内进行生物降解。如果许多半生物合成的甚至化学合成的聚合物包含天然化合物中也存在的化学键，它们也是可生物降解的。只有很少的聚合物是真正持久的。总结了支持和反对使用此类聚合物的争论。

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来源
《Journal of Macromolecular Science. Pure and Applied Chemistry》 |1995年第4期|p.653-660|共8页
作者
ALEXANDER STEINBUECHEL;
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作者单位

Institut fuer Mikrobiologie der Westfaelischen Wilhelms-Universitaet Muenster Corrensstrasse 3, D-48149 Munich, Germany;

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正文语种 eng
中图分类高分子化学（高聚物）;
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USE OF BIOSYNTHETIC, BIODEGRADABLE THERMOPLASTICS AND ELASTOMERS FROM RENEWABLE RESOURCES: THE PROS AND CONS

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