| Description |
1 online resource |
| Contents |
Preface -- Structure of the Book -- Abbreviations -- Notations -- CHAPTER 1. Introduction to Bio-Implants -- 1.1 Introduction -- 1.2 Classifications of Bio-Implants -- 1.3 Materials Used in Implants -- 1.4 Implant Failure- Infections -- 1.5 Bacterial Adhesion and Biofilm Formation -- 1.6 Effect of Surface Roughness on Implants Infection and Wettability -- 1.7 Summary -- CHAPTER 2. Surface Modification Techniques -- 2.1 Introduction -- 2.2 Objectives of Surface Modification -- 2.3 Surface Modification Techniques |
|
2.4 Types of Surface Modification Techniques -- 2.5 Summary -- CHAPTER 3. Abrasive Flow Finishing: Introduction and Literature Survey -- 3.1 Introduction -- 3.1.1 Super Finishing Processes -- 3.1.1.1 Bonded Abrasives -- 3.1.1.2 Unbonded Abrasives -- 3.1.2 Surface Characteristics -- 3.1.2.1 Surface Topography Terminologies -- 3.1.2.2 Classifications of Surface Roughness Parameters -- 3.1.3 Abrasive Flow Machining/Finishing -- 3.1.3.1 Material Removal Mechanism -- 3.1.3.2 AFM Types Based on the Direction of Media Flow -- 3.1.3.3 Process Parameters -- 3.2 Literature Survey |
|
3.2.1 Experimental Setups and Experimentation -- 3.2.2 Abrasive Media Development and Characterization -- 3.2.3 Modelling and Optimization -- 3.2.4 Applications -- 3.3 Motivation -- 3.4 Objective and Scope of Present Work -- 3.4.1 The Detailed Scope of Work-Activities Includes -- 3.5 Methodology of Research Work -- 3.6 Summary -- CHAPTER 4. A Novel Approach for Finishing Various Implants: UAFF Process -- 4.1 Introduction -- 4.2 Development of Experimental Setup -- 4.2.1 Stage 1: Unidirectional Abrasive Flow Finishing Process |
|
4.2.2 Stage 2: Closed Loop Unidirectional Abrasive Flow Finishing Process -- 4.2.2.1 Design Parameters -- 4.3 Subsystems -- 4.3.1 Hydraulic Power Pack -- 4.3.2 Hydraulic Cylinder -- 4.3.3 Abrasive Media Cylinder -- 4.3.4 Directional Control Valve with the Manifold Block -- 4.3.5 Pressure Gauges -- 4.3.6 Other Accessories -- 4.4 Workpiece and Fixture Design -- 4.4.1 Fixture to Hold the Workpieces for Machinability Study -- 4.4.2 Fixture to Hold Biomaterials Used for Wettability Study -- 4.4.3 Fixture to Hold the Biomaterials Used for Bacterial Adhesion Study |
|
4.5 Materials and Abrasive Media Development -- 4.5.1 Viscoelastic Polymer -- 4.5.2 Plasticizer -- 4.5.3 Abrasive Particles -- 4.5.4 Preparation of Abrasive Media -- 4.6 Characterization of the Developed Abrasive Media -- 4.6.1 Morphology -- 4.6.2 Thermo Gravimetric Analysis (TGA) -- 4.6.3 Differential Scanning Calorimetry (DSC) -- 4.6.4 Tensile Test -- 4.6.5 Rheological Properties -- 4.6.5.1 Viscosity vs. Shear Rate -- 4.6.5.2 Shear Stress vs. Shear Rate -- 4.6.5.3 Storage Modulus and Loss Modulus vs. Frequency -- 4.6.5.4 Complex Viscosity vs. Frequency -- 4.7 Summary |
| Summary |
The Role of Surface Modification on Bacterial Adhesion of Bio-implant Materials: Machining, Characterization, and Applications, explores the relationship between the surface roughness of artificial implants used for hard tissue replacement and their bacterial adhesion. It summarizes the reason for the failure of implants, the mechanisms of bacterial formation on implant surfaces, and the fundamental and established methods of implant surface modification techniques. It provides readers with an organized and rational representation about implant manufacturing and mechanical surface modification. It also explores the use of developed unidirectional abrasive flow finishing processes to finish biomaterials at the nano-level. It is an invaluable guide for academics, graduate students, biomaterial scientists, and manufacturing engineers researching implants, related infections, and implant manufacturing. Key Features: Explores implant related infections Discusses surface modification techniques Contains information on the mechanical finishing processes and complete guide on developed cutting edge unidirectional abrasive flow finishing technology |
| Bibliography |
Includes bibliographical references |
| Notes |
Santhosh Kumar S received his BE degree in Mechanical Engineering in 2011 from Visvesvaraya Technological University, ME degree in Advanced Materials Technology in 2013 from UVCE, Bangalore, and Ph. D in micro-machining from Indian Institute of Technology Madras in 2019. His current research areas of interest include micro-machining, surface engineering, and rheology of complex fluids. Somashekhar S. Hiremath works as an Associate Professor in the Department of Mechanical Engineering at Indian Institute of Technology Madras, Chennai, Tamil Nadu, India. He received the doctoral degree in 2004 from Indian Institute of Technology Madras, Chennai, Tamil Nadu, India. He has supervised 11 doctoral students, 5 MS (by research) and 43 M. Tech. students as of now. He has published more than 200 papers in national and international level. His current research areas are micro-machining, nano-materials synthesis, hydraulic hybrids, mechatronics system design, precision engineering, FEM, and hybrid machining processes. He is a member of many professional technical bodies |
|
Online resource; title from PDF title page (ProQuest Ebook Central, viewed June 21, 2022) |
| Subject |
Biomedical materials.
|
|
Biomedical materials -- Biocompatibility
|
|
Biomedical materials -- Surfaces
|
|
Implants, Artificial -- Materials
|
|
SCIENCE -- Biotechnology.
|
|
SCIENCE -- Nanostructures.
|
|
SCIENCE -- Solid State Physics.
|
|
Biomedical materials -- Biocompatibility
|
|
Biomedical materials -- Surfaces
|
|
Biomedical materials
|
|
Implants, Artificial -- Materials
|
| Form |
Electronic book
|
| Author |
Hiremath, Somashekhar S., author.
|
| ISBN |
9781000098112 |
|
1000098117 |
|
9781003021407 |
|
1003021409 |
|
9781000098051 |
|
1000098052 |
|
9781000098082 |
|
1000098087 |
|
