Surface Engineering

I: Ion Implantation.- 1. Physics of Ion Implantation.- 2. Recoil Implantation and Ion Mixing.- 3. On the Use of Reactive Ion-Beam Mixing for Surface Modifications.- 4. Surface Topographical Changes on (11 3 1) Copper Surfaces Bombarded with 40 keV N+, Ne+, Ar+, Cu+, Kr and Xe+ Ions.- 5. Lattice Location Studies on Hafnium, Thallium and Lead Implanted Magnesium Single Crystals.- 6. Ion Mixing in the Ag-Ni and Fe-Sn Systems.- 7. Ion Implantation and Optical Properties.- 8. Optical Waveguide Formation in Quartz by Ion Implantation.- 9. Optical Properties of Ion Implanted Indium Tin Oxide Glasses.- 10. Ion Implantation and Related Treatments Applied in Tribology.- 11. Nitrogen Implantation into Steels: Influence of Fluence and Temperature after Implantation.- 12. Parameter Induced Changes in the Wear Behavior of Ion Implanted Steel under Heavy Loading.- 13. Hardness and Wear Correlations in Nitrogen-Implanted Metals.- 14. Wear Resistant Performance of Ion Implanted Alloy Steels.- 15. Effects of Ion Implantation on the Tribological Behavior of a Cobalt Based Alloy.- 16. The Effect of Ion Implantation on Adhesive Bonding to and Wear of, Copper and Copper-Base Alloys.- 17. Structure Property Relationships in Ion Implanted Ceramics.- 18. A Prototype Ion Implanter for Industrial Tool and Die Processing.- 19. High Dose Rate Ion Implantation Processes and System Characterizations (Semiconductor Technology Applications).- 20. The Implications of Surface Technology in the Sawing of Wood.- 2: Laser Surface Modification.- 1. Understanding the Technology and Industrial Acceptance of Laser Surface Modifications.- 2. Laser Processing of Metals and Coatings for Enhanced Surface Properties.- 3. Surface Processing by a Pulsed Laser.- 4. Mixing of Pb and Ni under Ion Bombardment and Pulsed Laser Irradiation.- 3: High Temperature Protective Coatings.- 1. Thermodynamics and Kinetics of Pack Cementation Processes.- 2. Basic Oxidation Principles: Growth of Continuous Scales.- 3. Protective Coatings for Materials in High Temperature Technology -European R, D Needs-.- 4. Protective Coatings for High Temperature Gas turbine Alloys A Review of the State of Technology.- 5. Microstructure, Properties and Mechanism of Formation of Aluminum Diffusion Coatings on Heat-Resistant Stainless Steels.- 6. Aluminide Coatings on Superalloys.- 7. Structure of Platinum Modified Aluminide Coatings.- 8. A Microstructural Study of MCrALY Coatings.- 9. Oxidation Behavior of a NiCrAl Alloy Recoil-Implanted with Yttrium.- 10. Modification of the Oxidation and Hot Corrosion Behavior of CoCrA1s Alloys by Ion Implantation.- 11. Insulative, Wear and Corrosion Resistant Coatings for Diesel and Gas Turbine Engines.- 12. Studies on Plasma-Sprayed Thermal Barrier Coatings.- Design of Coatings for High Temperature Corrosion Protection.- 4: Miscellaneous Surface Modification Processes and Properties.- 1. Ion Beam Effects in Surface Modification Techniques.- 2. Ion Plating and the Production of Cu-Cr Alloy Coatings.- 3. Electrolytic Composite Coatings for Increased Wear Resistance of Metals.- 4. Surface Treatment for Corrosion Protection.- 5. Surface Modified Electrodes — Reasons and Advantages.- 6. Surface Damage in Manganese Zinc and Nickel Zinc Ferrites.- 7. The Effect of Surface Modifications Upon the Mechanical Performance of Metals and Alloys.- 8. Silicon Segregation in Sliding Wear: An Esca-Aes Investigation.- 9. Diffusion Induced Grain Boundary Migration in Surface Modification Processes.- 10. Laser Probe Microanalysis of Near-Surface Layers by Time-Of-Flight Mass Spectrometry.- 11.Surface Analysis of Physical Vapor Deposited Semiconducting Oxides.