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Surface Engineering Techniques and Applications

Book Description

Surface engineering includes many facets of materials science that help regulate the function, quality, and safety of products such as automotive, textile, and electronic materials. New technologies are developing to help enhance the surface performance. Surface Engineering Techniques and Applications: Research Advancements provides recent developments in surface engineering techniques and applications. It details scientific and technological results while also giving insight to current research, economic impact, and environmental concerns so that academics, practitioners, and professionals in the field, as well as students studying these areas, can deepen their understanding of new surface processes.

Table of Contents

  1. Cover
  2. Title Page
  3. Copyright Page
  4. Editorial Advisory Board and List of Reviewers
    1. Editorial Advisory Board
  5. Preface
  6. Acknowledgment
  7. Chapter 1: Functional Surfaces in Mechanical Systems
    1. Abstract
    2. INTRODUCTION
    3. CLASSIFICATION
    4. FABRICATION
    5. CHARACTERISATION
    6. SUMMARY
    7. REFERENCES
    8. KEY TERMS AND DEFINITIONS
  8. Chapter 2: Design and Selection of Chemically Deposited Ni-P-W Coatings for Optimum Tribological Behavior
    1. ABSTRACT
    2. INTRODUCTION
    3. PROPOSED METHODOLOGY
    4. EXPERIMENTAL STUDY
    5. RESULTS AND DISCUSSION
    6. CONCLUSION
    7. REFERENCES
    8. KEY TERMS AND DEFINITIONS
  9. Chapter 3: Surface Engineering Techniques and Applications
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. CORROSION CONTROL PROCESSES
    4. 3. CONCLUSION
    5. REFERENCES
    6. KEY TERMS AND DEFINITIONS
  10. Chapter 4: Surface Engineering by Friction Stir Processing and Friction Surfacing
    1. ABSTRACT
    2. INTRODUCTION: THE IMPORTANCE OF SURFACE ENGINEERING
    3. SURFACE PREPARATION
    4. SURFACE TREATMENT
    5. FRICTION STIR PROCESSING
    6. PRINCIPLE OF FRICTION STIR WELDING (FSW)
    7. PRINCIPLE OF FRICTION STIR PROCESSING (FSP)
    8. MATERIAL FLOW IN FSW/FSP
    9. SOLID STATE SURFACE TREATMENT TECHNIQUES
    10. CATEGORY 1: MODIFYING THE SURFACE WITHOUT ALTERING THE SUBSTRATEā€˜S CHEMICAL CONSTITUTION
    11. CATEGORY 2: CHANGING THE SURFACE LAYERS BY ALTERING THE ALLOY CHEMISTRY
    12. SURFACE PREPARATION FOR FABRICATION OF COMPOSITES BY FSP
    13. STRENGTHENING MECHANISMS IN MMC
    14. ALUMINIUM ALLOYS
    15. CATEGORY 3: ADDING LAYERS OF MATERIAL TO THE SURFACE
    16. FSP OF AA6082 TO IMPROVE PITTING CORROSION RESISTANCE
    17. CONCLUSION
    18. REFERENCES
    19. KEY TERMS AND DEFINITIONS
  11. Chapter 5: Improving Surface Integrity Using Laser Metal Deposition Process
    1. ABSTRACT
    2. INTRODUCTION
    3. BACKGROUND OF LASER SURFACE ENGINEERING
    4. BASIC LASER METAL DEPOSITION PROCESSING PARAMETERS
    5. NON-TRADITIONAL FINISHING OPERATIONS APPLIED TO LASER DEPOSITED PARTS
    6. CHARACTERIZATION OF LASER METAL DEPOSITION OF TITANIUM ALLOY
    7. CHARACTERISATION OF LASER DEPOSITED TI6AL4V/TIC COMPOSITE
    8. FUTURE RESEARCH DIRECTIONS
    9. CONCLUSION
    10. ACKNOWLEDGMENT
    11. REFERENCES
    12. ADDITIONAL READING
    13. KEY TERMS AND DEFINITIONS
  12. Chapter 6: Application of Laser Assisted Cold Spraying Process for Materials Deposition
    1. ABSTRACT
    2. 1. INTRODUCTION
    3. 2. BACKGROUND OF SURFACE TREATMENT AND COATING TECHNIQUES
    4. 3. TITANIUM AND HYDROXYAPATITE: BIOMEDICAL ENGINEERING MATERIAL OF CHOICE
    5. 4. SUMMARY
    6. 5. FUTURE RESEARCH
    7. REFERENCES
    8. KEY TERMS AND DEFINITIONS
  13. Chapter 7: Laser Additive Manufacturing in Surface Modification of Metals
    1. ABSTRACT
    2. INTRODUCTION
    3. AN OVERVIEW OF ADDITIVE MANUFACTURING (AM) TECHNOLOGY
    4. FUTURE RESEARCH DIRECTIONS
    5. CONCLUSION
    6. ACKNOWLEDGMENT
    7. REFERENCES
    8. ADDITIONAL READING
    9. KEY TERMS AND DEFINITIONS
  14. Chapter 8: Surface Characterization in Fused Deposition Modeling
    1. ABSTRACT
    2. INTRODUCTION
    3. BACKGROUND
    4. SURFACE CHARACTERIZATION
    5. FUTURE RESEARCH DIRECTIONS
    6. CONCLUSION
    7. REFERENCES
    8. ADDITIONAL READING
    9. KEY TERMS AND DEFINITIONS
  15. Chapter 9: Surface Modification and Structure Control for Nano- and Fine-Particle Aggregation and Adhesion Behaviour Control in Liquid Phase
    1. ABSTRACT
    2. INTRODUCTION
    3. 2. FUNDAMENTALS FOR HANDLING NANOPARTICLES
    4. 3. SURFACE MODIFICATION OF NANOPARTICLES TO IMPROVE THEIR DISPERSION STABILITY IN VARIOUS LIQUID MEDIA
    5. 4. CONCLUSION
    6. REFERENCES
    7. KEY TERMS AND DEFINITIONS
  16. Compilation of References
  17. About the Contributors