Nanomechanics for Coatings and Engineering Surfaces: Test Methods, Development Strategies, Modeling Approaches, and Applications
Editat de Ben Beake, Tomasz Liskiewiczen Limba Engleză Paperback – 13 noi 2024
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.
- Provides best practices in nanoindentation measurements and related small-scale test methods
- Demonstrates how to use test results to develop improved coatings
- Outlines modeling approaches and numerical simulations
- Highlights selected applications for metallic nanocomposites, tribological coatings, solid lubricants, and aerospace coatings
- Shows future directions for simulation of complex wear scenarios
Preț: 1069.57 lei
Preț vechi: 1404.86 lei
-24% Nou
Puncte Express: 1604
Preț estimativ în valută:
204.71€ • 212.91$ • 171.55£
204.71€ • 212.91$ • 171.55£
Carte tipărită la comandă
Livrare economică 06-20 martie
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9780443133343
ISBN-10: 0443133344
Pagini: 736
Dimensiuni: 152 x 229 mm
Greutate: 0.45 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0443133344
Pagini: 736
Dimensiuni: 152 x 229 mm
Greutate: 0.45 kg
Editura: ELSEVIER SCIENCE
Cuprins
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
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