自然に触発された材料設計 Materials Design Inspired by Nature : Function through Inner Architecture

自然に触発された材料設計<br>Materials Design Inspired by Nature : Function through Inner Architecture

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自然に触発された材料設計
Materials Design Inspired by Nature : Function through Inner Architecture

Fratzl, Peter (EDT)/ Dunlop, John (EDT)/ Weinkamer, Richard (EDT)

ウェブストア価格 ¥46,993（本体¥42,721）
Royal Society of Chemistry（2013/05発売）
外貨定価 US$ 224.00
ポイント 427pt

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製本 Hardcover:ハードカバー版／ページ数 420 p.
言語 ENG
商品コード 9781849735537
DDC分類 543.0284

Full Description

The inner architecture of a material can have an astonishing effect on its overall properties and is vital to understand when designing new materials. Nature is a master at designing hierarchical structures and so researchers are looking at biological examples for inspiration, specifically to understand how nature arranges the inner architectures for a particular function in order to apply these design principles into man-made materials.

Materials Design Inspired by Nature is the first book to address the relationship between the inner architecture of natural materials and their physical properties for materials design. The book explores examples from plants, the marine world, arthropods and bacteria, where the inner architecture is exploited to obtain specific mechanical, optical or magnetic properties along with how these design principles are used in man-made products. Details of the experimental methods used to investigate hierarchical structures are also given.

Written by leading experts in bio-inspired materials research, this is essential reading for anyone developing new materials.

Architectured Materials: An Alternative to Microstructure Control for Structural Materials Design? A Possible Playground for Bio-inspiration?;

Bone Structural Adaptation and Wolff's Law;

Understanding Hierarchy and Functions of Bone Using Scanning X-ray Scattering Methods;

Advanced Transmission Electron Microscopy to Explore Early Stages of Bio(mimetic)mineralization;

Collagen-based Materials for Tissue Repair, from Bio-inspired to Bio-mimetic;

Materials Design Inspired by Tree and Wood Architecture;

Raman Microscopy: Insights into the Chemistry and Structure of Biological Materials;

The Mineralized Crustacean Cuticle: Hierarchical Structure and Mechanical Properties;

Multi-scale Modelling of a Biological Material: The Arthropod Exoskeleton;

Optical Biomimetics;

Magnetic Nanoparticles in Bacteria;

Hierarchical Protein Assemblies as a Basis for Materials;

Anti-adhesive Surfaces in Plants and Their Biomimetic Potential;

Bio-inspired Adhesive Surfaces: From Principles to Applications;

Replicating Biological Design Principles in Synthetic Composites;

Bio-inspired Self-healing Materials;