Solid Biomechanics Book

Preface xi

Acknowledgments xiii

PART 1 Understanding Elasticity

Chapter 1: The Properties of Materials 3

Forces: Dynamics and Statics 3

Investigating the Mechanical Properties of Materials 4

Determining Material Properties 7

Loading, Unloading, and Energy Storage 8

The Effect of Direction 11

Changes in Shape during Axial Loading 11

Shear 12

Performing Material Tests 14

Failure and Breaking 17

Stress Concentrations and Notch Sensitivity 17

Energy Changes and the Work of Fracture 19

Measuring Work of Fracture 21

Comparing the Properties of Materials 24

PART 2 Biological Materials

Chapter 2: Biological Rubbers 29

The Problem of Raw Materials 29

Biological Polymers 30

The Shape and Behavior of Random-Coil Chains 32

The Structure and Mechanical Properties of Rubbers 32

Biological Protein Rubbers 35

Resilin 35

Abductin 37

Elastin 38

Chapter 3: Complex Polymers 42

The Mechanics of Polymers 42

Investigating Polymer Behavior 44

A Typical Polymer: Sea Anemone Mesoglea 46

Mucus and Gels 48

Making Protein Polymers Stiffer 51

Silks 53

Chapter 4: Polymer Composites 59

Combining Materials 59

The Behavior of Soft Composites 59

Natural Soft Composites 62

Rigid Composites 66

Keratinous Structures 68

The Theory of Fillers and Discontinuous Composites 74

Insect Cuticle 75

The Plant Cell Wall 79

Wood 80

Chapter 5: Composites Incorporating Ceramics 83

The Advantages of Incorporating Minerals 83

Spicule-Reinforced Connective Tissue 83

Bone 84

Tooth Ceramics 88

Mollusk Shell 89

PART 3 Biological Structures

Chapter 6: Tensile Structures 95

An Introduction to Structures 95

Ropes and Strings 95

Using Multiple Ropes 97

Membranes, Skins, and Plates 98

Resisting Out-of-Plane Forces 102

Stresses in Pipes, Cylinders, and Spheres 103

The Design of Arteries 105

The Design of Lungs 107

The Design of Swim Bladders 108

The Design of Gas Vesicles 109

Chapter 7: Hydrostatic Skeletons 111

The Advantages of Being Pressurized 111

Cartilage 111

The Hydrostatic Skeletons of Plants 112

Cylindrical Pressure Vessels 113

Pressure Vessels with Orthogonal Fibers 113

Muscular Hydrostats 115

Helically Wound Cylinders 115

Helical Fibers to Control Growth and Shape 116

Helical Fibers as Muscle Antagonists 119

Fibers as Limits to Movement 121

Chapter 8: Structures in Bending 123

The Complexity of Bending 123

Simple Beam Theory 123

The Four-Point Bending Test 125

The Three-Point Bending Test 126

The Consequences of Simple Beam Theory 128

Fracture in Bending 134

Shear in Beams 135

The Consequences of Shear 138

Biological Trusses 139

Optimal Taper and the Scaling of Cantilever Beams 143

Chapter 9: Structures in Compression 147

Material Failure in Compression 147

Structural Failure in Compression 147

The Buckling of Struts 148

Buckling within Structures 152

Cork 157

Chapter 10: Structures in Torsion 159

Torsional Stresses and Strains 159

Torsion Tests 160

The Effect of Cross Section 162

Designs That Resist Torsion 162

Designs That Facilitate Torsion 163

The Mechanics of Spiral Springs 165

The Torsional Rigidity of Plates 166

Chapter 11: Joints and Levers 170

Support and Flexibility 170

Passive Movement in Plants 170

Active Movement in Plants 171

Hinges in Animals 172

Moving Joints 175

PART 4 Mechanical Interactions

Chapter 12: Attachments 183

Holding On 183

Hooking On 183

Attachments to Soft Substrates 184

Attachments to Particulate Substrates 185

Attachments to Hard, Flat Surfaces 189

Chapter 13: Interactions with the Mechanical Environment 198

Optimizing Design for Strength 198

Factors of Safety 198

How Optimization is Achieved 201

Chapter 14: Mechanical Interactions between Organisms 206

Biotic Interactions 206

The Mechanics of Climbing Plants 206

The Mechanics of Fungal Hyphae and Appressoria 209

Plant Defenses against Fungi 210

Food Processing by Animals 210

Adaptations of Potential Food 212

Other Biotic Interactions 215

PART 5 Looking Forward

Chapter 15: The Future of Structural Biomechanics 219

Successes 219

Limitations and Future Developments 219

New Frontiers for Biomechanics 222

Glossary 223

References 231

Index 247