Covering energy-saving technologies and how these are incorporated into component design, this book is relevant to many industries, including automotive engineering, and discusses the topical issue of sustainability in industry. This book details recent fundamental developments in the field of tribology in industrial systems.
Tribology has advanced significantly in recent years. Tribological performance depends on external parameters such as contact pressure at the interface, system temperature, relative speed between bodies and contact behaviour. Through ensuring that mechanisms work in an energy-efficient manner and minimizing wear, engineers should seek to implement the study of tribology to improve the life of machinery within industry. Essential to the study of component design and condition monitoring, the book touches upon topics such as gears, bearings and clutches. Additionally, it discusses tribology’s relation to Industry 4.0 and incorporates the results from cutting-edge research.
Industrial Tribology: Sustainable Machinery and Industry 4.0 will be of interest to all engineers working in industry and involved in mechanical engineering, material engineering, mechanisms and component design and automotive engineering.
1. Real Contact Area and Friction: An Overview of Different Approaches, 2. Non-Edible Biodegradable Plant Oils: The Future of the Lubricant Industry, 3. Static Analysis of Journal Bearing with Bionanolubricants Featuring Three-Layered Nanoadditive Couple Stress Fluids, 4. Alternative Industrial Biolubricants: Possible Future for Lubrication, 5. Tribological Performance Involving DOE of an Additively Manufactured Cu-Ni Alloy, 6. Tribology of Graphene Oxide-Based Multilayered Coatings for Hydrogen Applications, 7. Analysis of Frictional Stress Variations along Tooth Contact of Spur and Helical Gears, 8. Squeaking in Total Hip Arthroplasty: A Scoping Review on a Biotribological Issue, 9. Synovial Lubrication Modeling of Total Hip Replacements Using Musculoskeletal Multibody Dynamics, 10. The Role of Surface Engineering in Tribology, 11. A Review on Tribological Investigations for Automotive Applications, 12. Tribology in the Automotive Sector, 13. Tribocorrosion in the Automotive Sector, 14. Numerical Solution of Reynolds Equation for a Compressible Fluid Using Finite Volume Upwind Schemes, 15. Tribological Performance of Optimal Compound-Shaped Texture Profiles for Machine Components, 16. Case Study: Wear Behavior of Different Seal Materials under Dry-Lubricated Conditions
Jitendra Kumar Katiyar, J. Paulo Davim
