This book introduces the mechanical principles governing the behaviour of a wide range of biological materials, which are materials produced by a biological system. The approach is systematic and based on one-dimensional (fibres), two-dimensional (membrane), and three-dimensional (bulk) biological materials. The essential mathematical tools are developed from first principles and applied to materials as diverse as spider silk, blood vessels, and bone. It offers a progressive introduction of mathematics and mechanics concepts and offers detailed solutions to numerous worked examples.

* Provides an essential gateway to access complex treatises in the important and demanding models governing the observed behaviour of biological materials.

* Teaches readers to exploit the wondrous properties found in nature in the development of biomimetic applications.

* Offers a progressive introduction of mathematics and mechanics concepts.

* Includes detailed solutions to numerous worked examples, case studies, and homework problems.

The text is aimed at students of chemistry, materials engineering, and biology, who do not have a background in mechanics but wish to further their knowledge of the mechanics of biological materials.

A solutions manual is available to qualifying adopting professors.

About the Author

Manuel Elices is a Foreign Member of the National Academy of Engineering, USA, and Emeritus Professor of Materials Science at the Polytechnical University of Madrid, Spain.

Gustavo Guinea, former Director of the Centre for Biomedical Technology at the Polytechnical University of Madrid, Spain, is Head of the Lab for Biomaterials and Regenerative Engineering in this Centre.

John Morton is a Fellow in Engineering Science at University College Oxford, UK.

Book Information
ISBN 9781032892771
Author Manuel Elices
Format Hardback
Page Count 392
Imprint CRC Press
Publisher Taylor & Francis Ltd
Weight(grams) 453g