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Nanomechanics for Coatings and Engineering Surfaces. Test Methods, Development Strategies, Modeling Approaches, and Applications

  • Book

  • November 2024
  • Elsevier Science and Technology
  • ID: 5971455

Nanomechanics for Coatings and Engineering Surfaces: Test Methods, Development Strategies, Modeling Approaches, and Applications provides readers with an array of best practices for nanoindentation measurements as well as related small-scale test methods and how to translate test results into the development of improved coatings. A core theme of the book is explaining to readers exactly how, when, and why the nanomechanical properties of engineered surfaces relate to their wear resistance. The book starts with chapters that introduce the development and importance of nanomechanical testing and linkages between wear resistance and the mechanical properties of coatings before moving into discussions of various experimental methods and techniques, such as nanoindentation, continuous stiffness measurements, nano-scratch methods, high-temperature testing, nano-impact testing, and more. Other sections discuss modeling approaches such as finite element analysis, atomistic and molecular dynamics, and analytical methods. Design strategies and industrial applications are covered next, with a final section looking at trends and future directions.

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Table of Contents

Section 1: Introduction 1. Development of nanomechanical testing 2. Development of additional nano-scale wear test techniques 3. Linking coating mechanical properties and wear resistance Section 2: Experimental Methods/Techniques 4. Nanoindentation strategies for reliable measurements on coated systems 5. Indentation Energy-based Analysis Methods 6. Nano-scratch testing 7. Reciprocating Nano- and Micro-scale Wear Testing 8. AFM nano-wear 9. Nano-impact testing 10. Micro and Nano-mechanics to understand the effects of residual stress on a coating's performance 11. Multi-sensing Approaches 12. High temperature testing Section 3: Modelling Approaches 13. Analytical methods 14. Numerical simulation and Finite Element Analysis 15. Atomistic and Molecular Dynamics Section 4: Coating and Engineering Surfaces: design strategies and industrial applications 16. H/E Revisited 17. Thin protective coatings on silicon for MEMS 18. DLC on steel for automotive applications 19. High speed machining 20. Nuclear materials 21. Aerospace coatings 22. Solid lubricants 23. Nanomechanics of Tribologically Transformed Surfaces 24. Microtribology Experiments for Hard Metals Section 5: Summary 25. Trends and future directions

Authors

Ben Beake FIMMM, Director of Materials Research, Micro Materials Ltd, Visiting Professor at Manchester Metropolitan University. University of Leeds THE rank: 127th University of Huddersfield THE rank: 601-800th Manchester Metropolitan University THE rank: 601-800th, UK. Professor Ben Beake worked at the Universities of Hull, Nottingham and UMIST after a degree and PhD (1994) in Chemistry both from the University of Exeter. He joined Micro Materials as an Applications Scientist in 1999 and was promoted to Director of Materials Research in April 2006. He is a Fellow of both the Institute of Nanotechnology and the Institute of Materials, Minerals and Mining (IOM3), as well as a past chair of the IOP Tribology Group.

Ben is currently a Visiting Professor in Mechanical Engineering, University of Leeds, and the University of Huddersfield. He is very active in collaborative research with other NanoTest users with over 100 published papers in:

Developing new nano-mechanical test methods

Applying them to study mechanical and tribological properties of thin films and coatings

Environmental sensitivity in polymers Tomasz Liskiewicz Head, Department of Engineering, Manchester Metropolitan University, UK. Manchester Metropolitan University THE rank: 601-800th, UK. Professor Tomas Liskiewicz is Head of Department of Engineering at Manchester Metropolitan University. He has over 20 years of international academic and engineering experience from leading research institutions in the UK, France, Canada, and Poland. His research interests focus on surface engineering and tribology of functional surfaces, with a particular interest in fretting wear phenomena. His work has been published in such journals as Applied Surface Engineering; Tribology International; Surface and Coatings Technology; Wear and Industrial & Engineering Chemistry Research. He has presented at an array of international conferences and has been involved in fretting research for 20 years, with a main focus on wear processes. He previously spent 2 years in Alberta, Canada, working as a Senior Scientist at Charter Coating, leading material testing projects for the oil and gas industry. He was elected Fellow of the Institution of Mechanical Engineers in London in 2014 and is a Fellow of the Institute of Physics in London where he acts as Chair of the Tribology Group Committee.