Mechanical Properties of Bioinspired and Biological Materials: Symposium Held November 29-December 2, 2004, Boston, Massachusetts, U.S.A.Christopher Viney |
Contents
Effect of Enamel Prism | 3 |
Contribution of Collagen Mineral and Water Phases | 9 |
Nanoindentation of Bone in a Physiological Environment | 15 |
Copyright | |
41 other sections not shown
Common terms and phrases
acid allow analysis applied behavior biological biological tissues bonds bone calculated cell collagen compared composite compression concentration crack cross-linking crystals curve cuticle deformation density determined direction effect elastic modulus enamel Engineering experimental experiments failure fibers Figure followed force fracture function gels groups hardness hydrated increase indentation indicate initial interaction interface layer length load material matrix measured mechanical properties method microstructure mineral molecules nacre nanoindentation observed obtained organic orientation parameters particle performed phase polymer Position predicted present protein Raman spectroscopy range ratio reduced region Research respectively response rigidity samples scanning shape shell shown shows silk similar simulations solution spacing specimens stiffness strain strength stress structure surface Table temperature tensile testing thickness tissue University values volume yield