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About this product
- Author(s)Anoop Kumar Mukhopadhyay,Arjun Dey
- PublisherApple Academic Press Inc.
- Date of Publication06/04/2015
- GenreMedical Nursing & Ancillary Services
- Place of PublicationOakville
- Country of PublicationCanada
- ImprintApple Academic Press Inc.
- Content Note91 black & white illustrations, 15 black & white tables
- Weight566 g
- Width156 mm
- Height235 mm
- Spine20 mm
- Table Of ContentsIntroduction Introduction of Biomaterials Types of Biomaterials Categories of Bioceramics What Is Hydroxyapatite? What Is Hydroxyapatite Coating? Introduction of Bone: A Natural Biomaterial Introduction of Teeth: A Natural Biomaterial Surface Engineering of Bioinert Materials Challenges to Develop Surface-Engineered Implants Summary References Plasma Spraying and Other Related Coating Techniques Plasma Spray Process How Will Coating Form? Plasma Sprayed HAp Coatings Microplasma Spraying Microplasma Spraying and Its Application Microplasma Spraying: A Unique Manufacturing Technique Other Coating Processes Microplasma vs. Macroplasma Spraying Summary References Hydroxyapatite Coating and Its Application Background of the Problem and Basic Issues Applications of HAp Coating HAp Coating Developed by Different Methods Microplasma and Macroplasma Sprayed HAp Coatings: Pros and Cons Influence of Plasma Spraying Parameters on HAp Coating Nanostructured HAp Coating HAp Composite Coating Plasma-Sprayed HAp Coating: Current Research Scenario Summary References Structural and Chemical Properties of Hydroxyapatite Coating Introduction Stoichiometry of HAp Phase Analysis of MIPS-HAp Coatings Spectroscopic Investigation of MIPS-HAp Coatings Microstructure of MIPS-HAp Coating Porosity Dependencies of Young's Modulus and Hardness Qualitative Model for Explanation of Anisotropy Origin of Modeling on Pore Shape Summary References In Vitro Studies of Hydroxyapatite Coatings Introduction Literature Status Synthesis of SBF in the Laboratory SBF Immersion of MAPS-HAp Coatings on SS316L SBF Immersion of MIPS-HAp Coatings on SS316L Summary References Macromechanical Properties of Hydroxyapatite Coating Introduction What Governs HAp Coating's Performance? Interface Issues Bonding Strength and Methods of Measurements What Are General Guidelines to Improve Bonding Strength? Other Important Parameters Influence of Adhesive Influence of Microstructure Influence of Vacuum Heat Treatment Role of Interfacial Stress Role of Substrate Holding Arrangements Failure Mode and Related Issues Influence of Humidity Influence of the Dissolution Behavior Bonding Strength Measurements by Technologies Other Than ASTM HAp Coatings Developed by Other Coating Processes Bonding Strength of MIPS-HAp Coatings MAPS-HAp vs. MIPS-HAp Coatings Effect of Residual Stress Shear Strength and Pushout Strength Three-Point Bending Test Fatigue Behavior Summary References Micro/Nanomechanical Properties of Hydroxyapatite Coating Introduction Basic Theory of Nanoindentation Hardness Young's Modulus Effect of SBF Immersion Reliability Issues in Nanoindentation Data Fracture Toughness of MIPS-HAp Coatings Summary References Tribological Properties of Hydroxyapatite Coatings Introduction What Does the Literature Say? Nanoscratch Testing of MIPS-HAp Coatings at Lower Load Nanoscratch Testing of MIPS-HAp Coating at Higher Load Microscratch Testing of MIPS-HAp Coatings Microscratch Testing of MIPS-HAp Coatings before and after the SBF Immersion Summary References Residual Stress of Hydroxyapatite Coating Introduction Origin of Residual Stress Identification of Residual Stress and Importance Factors Affecting Residual Stress Common Methodologies to Evaluate Residual Stress Relative Advantages and Disadvantages Role of Higher Plasmatron Power and Secondary Gas Role of the Substrate Temperature Nature of the Residual Stress State Role of Other Basic Process Parameters Residual Stress of Thermal Sprayed and Sol-Gel-Derived HAp Coatings Residual Stress of MIPS-HAp Coatings Summary References In Vivo Studies of Microplasma Sprayed Hydroxyapatite Coating Introduction Rabbit Model Goat Model Dog Model Summary Acknowledgments References Future Scope and Possibilities MIPS-HAp Coating on Complex and Contoured Implants MIPS Coating of Other Calcium Phosphates (TCP, BCP, etc.) MIPS-HAp Coatings on C/C Composites Second Phase Incorporation in HAp Coatings Nanostructured Plasma Sprayed HAp Coating References C
- Author BiographyArjun Dey is a scientist in the Thermal Systems Group at the Indian Space Research Organisation Satellite Centre, Bangalore. Dr. Dey was previously at the Council of Scientific and Industrial Research-Central Glass and Ceramic Research Institute, Kolkata, India. He holds a bachelor's degree from Biju Patnaik University of Technology, Orissa, India, and master's and doctoral degrees from the Indian Institute of Engineering Science and Technology, Shibpur, Howrah (formerly Bengal Engineering and Science University). Highly decorated and widely published, Dr. Dey serves as a reviewer for many national and international journals. He recently coauthored the CRC Press book Nanoindentation of Brittle Solids with Dr. Mukhopadhyay. Anoop Kumar Mukhopadhyay is a chief scientist and head of the Advanced Mechanical and Materials Characterization Division of the Council of Scientific and Industrial Research (CSIR)-Central Glass and Ceramic Research Institute (CGCRI), Kolkata, India. Prior to joining CSIR-CGCRI, Dr. Mukhopadhyay initiated in India the research work on the evaluation, analysis, and microstructure mechanical properties correlation of non-oxide ceramics for high-temperature applications. He holds a bachelor's degree from Kalyani University, India, and master's and Ph.D degrees from Jadavpur University, Kolkata, India. Highly decorated and widely published, Dr. Mukhopadhyay holds seven patents, serves on the editorial board of Soft Nanoscience Letters, and recently coauthored the CRC Press book Nanoindentation of Brittle Solids with Dr. Dey.
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