Bio-inspirierte Materialentwicklungen

IF 0.9 4区 化学 Q4 CHEMISTRY, MULTIDISCIPLINARY
em. Univ. Prof. Dr. Ulrich Schubert
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引用次数: 0

Abstract

Extraordinary mechanical properties of biological materials are often not so much due to their chemical composition, but instead to the formation of hierarchical structures. This is illustrated with three examples – nacre, spider silk und holdfast structures of mussels. Selected approaches of taking inspiration from the construction principles of these natural materials for the development of new materials are presented. Although the high degree of integrating many hierarchical levels, as well as adaptability and multifuncionality of the materials, as achieved by evolutionary processes, has not (yet) been reached, bio-inspired concepts allow developing materials with interesting specific properties.

Abstract Image

生物启发材料的开发
生物材料之所以具有非凡的机械特性,往往不是因为它们的化学成分,而是因为形成了分层结构。本文以珍珠质、蜘蛛丝和贻贝的固着结构这三个例子来说明这一点。本文介绍了从这些天然材料的结构原理中汲取灵感开发新材料的一些方法。虽然目前还没有达到进化过程中实现的多层次高度集成,以及材料的适应性和多功能性,但生物启发概念可以开发出具有有趣的特殊性能的材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Chemie in Unserer Zeit
Chemie in Unserer Zeit 化学-化学综合
CiteScore
0.70
自引率
75.00%
发文量
97
审稿时长
>12 weeks
期刊介绍: Chemie in unserer Zeit informiert zuverlässig über aktuelle Entwicklungen aus der Chemie und ihren Nachbardisziplinen. Der Leser erhält spannende Einblicke in alle Bereiche dieser zukunftsträchtigen Wissenschaft, dabei werden auch komplexe Sachverhalte verständlich aufbereitet. Namhafte Experten bringen Neuentwicklungen von großer Tragweite näher - farbig illustriert und leserfreundlich präsentiert. Von wissenschaftlichen Übersichten, studienbegleitenden Materialien, nachvollziehbaren Experimenten bis hin zu brisanten Themen aus Umweltchemie und aktueller gesellschaftlicher Diskussion. Übersichtsartikel und abwechslungsreiche Rubriken vermitteln Fachwissen auf unterhaltsame Art und geben eine Hilfe bei der Orientierung im Fachgebiet.
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