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Design in nature : learning from trees
Overview of attention for book
Table of Contents
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Book Overview
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Chapter 1
Introduction
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Chapter 2
The Minimum on Mechanics
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Chapter 3
What Is a Good Mechanical Design?
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Chapter 4
The Axiom of Uniform Stress and How Computer Methods Derive from It
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Chapter 5
The Mechanics of Trees and the Self-Optimization of Tree Shape
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Chapter 6
The Right Load Distribution: The Axiom of Uniform Stress and Tree Shape
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Chapter 7
Annual Rings: The Internal Diary as a Consequence of the External Situation
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Chapter 8
Wood Fibres and Force Flow: The Fear of Shear Stress
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Chapter 9
How Does a Tree Break?
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Chapter 10
Can Trees Really Not Shrink?
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Chapter 11
Bones: Ultra-Light and Very Strong by Continuous Optimization of Shape
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Chapter 12
Bone Design: Selected Examples
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Chapter 13
Bony Frameworks and Tree Frameworks Compared
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Chapter 14
Claws and Thorns: Shape-Optimized by Success in the Lottery of Heredity
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Chapter 15
Biological Shells
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Chapter 16
Bracing: Ultra-Light but Highly Specialized
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Chapter 17
Shape Optimization by Growth in Engineering Design
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Chapter 18
Unity in Diversity: Design Target and Realization
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Chapter 19
Critique on Optimum Shape: Sensitization by Specialization
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Chapter 20
Outlook: Ecodesign and Close-to-Nature Computer Empiricism
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Chapter 21
New Examples of Application in Self-Explanatory Illustrations
Overall attention for this book and its chapters
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Book overview
1. Introduction
2. The Minimum on Mechanics
3. What Is a Good Mechanical Design?
4. The Axiom of Uniform Stress and How Computer Methods Derive from It
5. The Mechanics of Trees and the Self-Optimization of Tree Shape
6. The Right Load Distribution: The Axiom of Uniform Stress and Tree Shape
7. Annual Rings: The Internal Diary as a Consequence of the External Situation
8. Wood Fibres and Force Flow: The Fear of Shear Stress
9. How Does a Tree Break?
10. Can Trees Really Not Shrink?
11. Bones: Ultra-Light and Very Strong by Continuous Optimization of Shape
12. Bone Design: Selected Examples
13. Bony Frameworks and Tree Frameworks Compared
14. Claws and Thorns: Shape-Optimized by Success in the Lottery of Heredity
15. Biological Shells
16. Bracing: Ultra-Light but Highly Specialized
17. Shape Optimization by Growth in Engineering Design
18. Unity in Diversity: Design Target and Realization
19. Critique on Optimum Shape: Sensitization by Specialization
20. Outlook: Ecodesign and Close-to-Nature Computer Empiricism
21. New Examples of Application in Self-Explanatory Illustrations
Summary
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This data is correct as of December 2015 - for more up to date information, please visit
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Keele University
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