Synopsis
1 Introduction.- 1.1. Definition of Biomaterials.- 1.2. Brief Historical Background.- Problems.- References.- 2 Characterization of Materials.- 2.1. Mechanical Properties.- 2.1.1. Atomic Bonding and Elasticity (Hooke's Law).- 2.1.2. Mechanical Property Measurements.- 2.2. Viscoelasticity.- 2.3. Viscoelasticity in Dynamics Tests.- 2.4. Elasticity of Non-Hookean Materials.- Problems.- References.- 3 Structure of Solids.- 3.1. Atomic and Molecular Bonding.- 3.1.1. Primary Bonding.- 3.1.2. Secondary Bonding.- 3.2. Crystal Structure of Solids.- 3.3. Crystal Imperfections.- 3.3.1. Point Defects.- 3.3.2. Line Defects (Dislocations).- 3.3.3. Grain Boundaries.- 3.4. Noncrystalline Solids.- 3.4.1. Long-Chain Molecular Compounds.- 3.4.2. Network Structures.- Problems.- References.- 4 Thermodynamics of Structural Changes.- 4.1. Thermodynamic Relationships.- 4.1.1. Energy, Enthalpy, and the First Law of Thermodynamics.- 4.1.2. Entropy and the Second Law of Thermodynamics.- 4.1.3. Free Energies: The Thermodynamic Potentials.- 4.2. Rates of Reactions.- 4.3. Phase Changes.- 4.3.1. Single-Component Systems: Allotropy.- 4.3.2. Composition and Phase Stability.- 4.3.3. Mechanism of Phase Changes.- 4.3.4. Time-Temperature Transformation of Steel.- 4.4. Diffusion.- 4.5. Surface Properties.- 4.5.1. Surface Tension.- 4.5.2. Surface Tension Measurements of Solids.- Problems.- References.- 5 Strength and Strengthening Mechanisms.- 5.1. Strengths of Perfect and Real Materials.- 5.2. Strength and Strengthening of Metals and Simple Ionic Solids.- 5.2.1. Deformation of Crystalline Solids.- 5.2.2. Energetics of Dislocations.- 5.2.3. Dislocation Movement.- 5.2.4. Strengthening of Metals and Simple Ionic Solids.- 5.3. Strength and Strengthening of Ceramics and Glasses.- 5.3.1. Griffith Theory of Brittle Fracture.- 5.3.2. Strengthening of Ceramics and Glasses.- 5.4. Strength and Strengthening of Polymers.- 5.4.1. Strength of Polymers.- 5.4.2. Strengthening of Polymers.- 5.5. Properties of Composites.- Problems.- References.- 6 Structure-Property Relationships Of Biological Materials.- 6.1. Structure of Proteins and Polysaccharides.- 6.1.1. Proteins.- 6.1.2. Polysaccharides.- 6.2. Structure-Property Relationship of Tissues.- 6.2.1. Mineralized Tissue (Bone and Teeth).- 6.2.2. Collagen-Rich Tissues.- 6.3. Elastic Tissues.- 6.3.1. Composition and Structure.- 6.3.2. Properties of Elastic Tissues.- 6.4. Constitutive Equations Describing Mechanical Properties of Soft Tissues.- 6.4.1. Stress-Strain Relationship in Loading and Unloading.- 6.4.2. Strain Energy Function.- 6.4.3. Contribution of Collagen, Elastin, and Mucopolysaccharide to the Mechanical Properties of Soft Tissues.- Problems.- References.- 7 Tissue Response to Implants (Biocompatibility).- 7.1. Wound-Healing Process.- 7.1.1. Inflammation.- 7.1.2. Cellular Response to Repair.- 7.2. Body Response to Implants.- 7.2.1. Cellular Response to Implants.- 7.2.2. Systemic Effects of Implants.- 7.3. Blood Compatibility.- 7.3.1. Factors Affecting Blood Compatibility.- 7.3.2. Nonthrombogenic Surfaces.- Problems.- References.- 8 Metallic Implant Materials.- 8.1. Stainless Steels.- 8.1.1. Types of Composition of Stainless Steels.- 8.1.2. Properties of Stainless Steels.- 8.1.3. Manufacturing of Implants Using Stainless Steels.- 8.2. Co-Based Alloys.- 8.2.1. Types and Composition of Co-Based Alloys.- 8.2.2. Properties of Co-Based Alloys.- 8.2.3. Manufacturing of Implants Using Co-Based Alloys.- 8.3. Ti and Ti-Based Alloys.- 8.3.1. Composition of Ti and Ti-Based Alloys.- 8.3.2. Structure and Properties of Ti and Ti-Based Alloys.- 8.3.3. Manufacturing of Implants Using Ti-Based Alloys.- 8.4. Other Metals.- 8.5. Deterioration of Metallic Implant Materials.- 8.5.1. Electrochemical Principles of Corrosion.- 8.5.2. Rates and Passivity of Corrosion.- 8.5.3. Corrosion Fatigue.- Problems.- References.- 9 Ceramic Implant Materials.- 9.1. Aluminum Oxides.- 9.2. Hydroxyapatite.- 9.2.1. Structure of Hydroxyapatite.- 9.2.2. Propertie
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