Overview

Bioceramics: Properties, Characterization, and Applications will be a general introduction to the uses of ceramics and glasses in the human body for the purposes of aiding, healing, correcting deformities, and restoring lost function. With over 30 years experience, the author developed the text as an outgrowth of an undergraduate course for senior students in biomedical engineering and will emphasize the fundamentals and applications in modern implant fabrication, and will also deal with tissue engineering scaffolds made of ceramics. Organized as a textbook for the student needing to acquire the core competencies, it will meet the demands of advanced undergraduate or graduate coursework in bioceramics, biomaterials, biomedical engineering, and biophysics.

Full Product Details

Author:   Joon Park
Publisher:   Springer-Verlag New York Inc.
Imprint:   Springer-Verlag New York Inc.
Edition:   2008 ed.
Dimensions:   Width: 17.80cm , Height: 2.00cm , Length: 25.40cm
Weight:   0.714kg
ISBN:  

9781489985736

ISBN 10:   1489985735
Pages:   363
Publication Date:   27 November 2014
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

TABLE OF CONTENTS Contents Pages CHAPTER 1 Introduction 1-1 Problems 1-6 Symbols and Definitions 1-7 References 1-9 CHAPTER 2 STRUCTURE OF CERAMICS 2.1. Atomic Bonding and Arrangement 2-1 2.2. Characterization of Microstructure 2-4 2.3. Quantitative Analysis of Microstructure 2-6 2.4 MICROSTRUCTURE DETERMINATION OF SINGLE-PHASE 2-8 Problems 2-27 Symbols and Definitions 2-29 References 2-32 CHAPTER 3 CHARACTERIZATION OF CERAMICS AND GLASSES 3.1. MECHANICAL PROPERTIES 3-1 3.2. STRENGTHENING OF CERAMICS AND GLASSES 3-7 3.3. WEIBULL STATISTICS OF BRITTLE FAILURE 3-8 3.4. IMPACT STRENGTH, HARDNESS, FRICTION, AND WEAR PROPERTIES 3-10 3.5 THERMAL PROPERTIES (PHASE CHANGES) 3-12 3.5.1. Single-Component Systems: Allotropy 3-12 3.5.2. Composition and Phase Stability 3-14 3.5.3. Mechanism of Phase Changes 3-17 3.6. SURFACE PROPERTIES 3-20 Problems 3-61 Symbols and Definitions 3-63 References 3-66 CHAPTER 4 GLASS FORMATION AND CHARACTERIZATION 4.1. GLASS FORMATION 4-1 4.2. NUCLEATION AND GLASS FORMATION 4-2 4.3. STRENGTH OF GLASSES 4-3 4.4. STATIC FATIGUE OF GLASSES 4-4 Problems 4-15 Symbols and Definitions 4-16 References 4-18 CHAPTER 5 HARD TISSUES STRUCTURE, PROPERTY, HEALING, REMODELING, AND BIOCOMPATIBILITY 5.1 STRUCTURE OF PROTEINS 5-1 5.1.1 Proteins 5-2 5.1.la. Collagen 5-2 5.1.lb. Elastin 5-3 5.1.2. Polysaccharides 5-4 5.2. STRUCTURE-PROPERTY RELATIONSHIP 5-3 5.2.l Composition and Structure 5-4 5.2.2 Mechanical Properties 5-6 5.2.3 Modeling of Mechanical Properties of Bone 5-7 5.3 Hard Tissue Healing and Remodeling Problems 5-10 5.3.1. Wound Healing Process of Hard Tissues 5-10 5.3.2 Bone Remodeling 5-11 5.4 BIOCOMPATIBILITY 5-13 Problems 5-45 Symbols and Definitions 5-46 References 5-48 CHAPTER 6 ALUMINUM OXIDES (ALUMINA) 6.1 Source, Composition and Structure 6-1 6.2 Mechanical Properties 6-2 6.3 Fatigue Properties and Service Life 6-4 6.4. Applications 6-6 6.4.1 Joint Replacements 6-6 6.4.2 Dental Implants 6-7 6.5 FURTHER THOUGHTS 6-8 Problems 6-29 Symbols and Definitions 6-32 References 6-34 CHAPTER 7 ZIRCONIUM OXIDES (ZIRCONIA) 7.1 Source and manufacturing of zirconia 7-1 7.2 structure and Properties of zirconia 7-1 7.3 long term stability and implant design 7-4 7.4 FURTHER THOUGHTS 7-8 Problems 7-43 Symbols and Definitions 7-43 References 7-45 CHAPTER 8 GLASS-CERAMICS 8.1 FORMATION OF GLASS-CERAMICS 8-1 8.2. PROPERTIES OF GLASS-CERAMICS 8-3 8.2.1. Mechanical Properties 8-3 8.2.2. Chemical Properties 8-3 8.3. COATINGS AND COMPOSITES 8-4 8.4. FURTHER THOUGHTS 8-4 Problems 8-16 Symbols and Definitions 8-17 References 8-18 CHAPTER 9 HYDROXYAPATITE 9.1 SOURCE, COMPOSITION AND STRCUTURE 9-1 9.2 PROPERTIES OF HYDROXYAPATITE 9-3 9.2.1. Mechanical Properties 9-3 9.2.2. Chemical Properties 9-5 9.3 APPLICATIONS 9-5 9.4. FURTHER THOUGHTS 9-7 Problems 9-25 Symbols and Definitions 9-26 References 9-28 CHAPTER 10 CARBONS AND DLC 10.1 SOURCE AND STRUCTURE OF CARBONS 10-1 10.2 PROPERTIES OF CARBONS 10-3 10.3 MANUFACTURING OF CARBON IMPLANTS 10-3 10.4 Diamond-Like Carbon (DLC) Coatings 10-5 10.4.1 Composition and Structure of DLC Coatings 10-5 10.4.2 Methods of Producing DLC Coatings

Reviews

"From the reviews: ""This work by Park … offers an in-depth look at the field of bioceramics. … Bioceramics makes good use of figures, including color images, cartoon schematics, microscope images, and quantitative graphs, which address biology, chemistry, and engineering concepts. … This volume will serve well as a graduate-level resource within the curriculum of a material science and engineering department, or as a supplemental monograph for a course in biomaterials within a biomedical engineering curriculum. Summing Up: Recommended. Graduate students, researchers, and faculty."" (C. A. Reinhart-King, Choice, Vol. 46 (11), July, 2009)"

From the reviews: This work by Park ... offers an in-depth look at the field of bioceramics. ... Bioceramics makes good use of figures, including color images, cartoon schematics, microscope images, and quantitative graphs, which address biology, chemistry, and engineering concepts. ... This volume will serve well as a graduate-level resource within the curriculum of a material science and engineering department, or as a supplemental monograph for a course in biomaterials within a biomedical engineering curriculum. Summing Up: Recommended. Graduate students, researchers, and faculty. (C. A. Reinhart-King, Choice, Vol. 46 (11), July, 2009)

Author Information

Joon Park is a Professor in the Biomedical Engineering Department at the College of Engineering at the University of Iowa.

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