Structural Biomaterials |
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Page v
... bone 152 6.3.3 Morphology and mechanical properties 153 6.3.4 Viscoelasticity of bone 156 6.3.5 Broken bones 157 6.4 Toughening ceramics 6.5 Teeth 6.6 Egg shell 158 160 164 6.7 Mollusc shells 6.8 Artificial ceramics 6.9 A ceramic ...
... bone 152 6.3.3 Morphology and mechanical properties 153 6.3.4 Viscoelasticity of bone 156 6.3.5 Broken bones 157 6.4 Toughening ceramics 6.5 Teeth 6.6 Egg shell 158 160 164 6.7 Mollusc shells 6.8 Artificial ceramics 6.9 A ceramic ...
Page vii
... Purslow and J. E. Smeathers . Sometimes it didn't seem like help , but I'm sure it was for my own good . Reading , 1981 J.F.V.V. Introduction Bone and wood are familiar supportive materials and provide Preface Introduction.
... Purslow and J. E. Smeathers . Sometimes it didn't seem like help , but I'm sure it was for my own good . Reading , 1981 J.F.V.V. Introduction Bone and wood are familiar supportive materials and provide Preface Introduction.
Page viii
J.F.V. Vincent. Introduction Bone and wood are familiar supportive materials and provide part of the frame- work upon ... bones of the body , to name but two examples . ― For the modern biologist , familiar with the emphasis which ...
J.F.V. Vincent. Introduction Bone and wood are familiar supportive materials and provide part of the frame- work upon ... bones of the body , to name but two examples . ― For the modern biologist , familiar with the emphasis which ...
Page 1
... bone and shell ( chapter 6 ) , by the cellulose of plant cell walls ( chapter 3 ) , by the cell walls of diatoms , by the crystalline parts of a silk thread ( chapter 2 ) , and by the chitin of arthropod skeletons ( chapter 5 ) . All ...
... bone and shell ( chapter 6 ) , by the cellulose of plant cell walls ( chapter 3 ) , by the cell walls of diatoms , by the crystalline parts of a silk thread ( chapter 2 ) , and by the chitin of arthropod skeletons ( chapter 5 ) . All ...
Page 2
... bone . This crystal consists of a large number of atoms held together by bonds . Then the behaviour of the entire crystal in response to the force is the summed responses of the individual bonds . Thus one arrives at the phenomenon ...
... bone . This crystal consists of a large number of atoms held together by bonds . Then the behaviour of the entire crystal in response to the force is the summed responses of the individual bonds . Thus one arrives at the phenomenon ...
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abductin amino acid composition amino acids amount animal behaviour biological materials biomaterials bone brittle cartilage cell cellulose CH2OH chitin collagen components conformation covalent cross-linking crystalline crystals cuticle deformation effect elastic elastin energy experiments extension factor feather keratin fibres fibrils fibrous figure force fracture function gels glycine groups H-bonds hair helical helix hyaluronic acid hydrogen bonding hydrophobic hydroxyproline hysteresis important increase insect cuticle interactions J. D. Currey keratin lamellar layer length linkages load locust matrix mechanical properties membrane mesogloea modulus molecular molecules morphology nacre NHCOCH3 occur OH OH orientation osteons peptide phase pliant Poisson ratio polymer polysaccharides possible probably proline protein random coil region relatively relaxation residues resilin rubber shear rate shell shown shows side chains silk ẞ-sheet stabilised stiffness strain rate strength stress stress-relaxation stress-strain curve structure Table temperature tendon tensile tension tissues toughness viscoelastic viscous X-ray diffraction Young modulus