Surface Engineering for Corrosion and Wear ResistanceJoseph R. Davis Engineers are faced with a bewildering array of choices when selecting a surface treatment for a specific corrosion or wear application. This book provides practical information to help them select the best possible treatment. An entire chapter is devoted to process comparisons, and dozens of useful tables and figures compare surface treatment thickness and hardness ranges; abrasion and corrosion resistance; processing time, temperature, and pressure; costs; distortion tendencies; and other critical process factors and coating characteristics. The chapter 'Practical Guidelines for Surface Engineering' describes hands-on approaches for matching surface treatments with design and performance requirements. The book includes the content from an Institute of Materials design guide publication, combined with information from several ASM Handbook volumes and other ASM and industry sources. All the material has been carefully organized, edited, and rewritten as needed to provide a comprehensive, up-to-date, and user-friendly guide to the subject.Contents: Introduction; Principles of Corrosion; Principles of Friction and Wear; Surface Engineering to Change the Surface Metallurgy; Surface Engineering to Change the Surface Chemistry; Surface Engineering to Add a Layer or Coating; Process Comparisons; Practical Design Guidelines for Surface Engineering; Glossary; Index. |
Contents
Principles of Corrosion | 11 |
Principles of Friction and Wear | 43 |
Abrasive Wear | 54 |
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abrasion resistance abrasive wear acid adhesion alloy aluminum anode applications arc welding areas ASM Handbook ASM International ASTM austenite Avoid features carbide carbon carbonitriding carburizing cathodic cavitation ceramics cermets chemical chemical vapor deposition chromate chrome plate chromium clad coating thickness components composition copper corrosion resistance diffusion electrochemical electrode electrodeposition electroless nickel electrolyte electroplating environment erosion example fatigue film finish fretting friction galvanic hardening hardness Heat Treating heat treatment hot dip HVOF hydrogen ion implantation laser layer liquid load lubricant material mechanical metal surface method nitriding nitrocarburizing nonsignificant surfaces oxide paint particles phosphate coatings physical vapor deposition pitting plasma plasma spraying plating powder produce properties protection silicon sliding slurry solid solution stainless steel stress substrate Surface Engineering surface treatments Table temperature thermal spraying tion titanium tungsten usually vapor deposition wear resistance workpiece zinc