Introduction to Electric Vehicle Tribology

Part I: Sustainability of Electric Vehicles
1. Energy Use and Emissions of Electric Vehicles
2. Sustainability and Circular Economy of Electric Vehicles
3. Perspective on Green Materials for Electric Vehicle Production

Part II: Electric Vehicle and Tribology Fundamentals
4. Electric Vehicle Hardware, Systems, and Architecture
5. Electric Vehicle Tribological Components
6. Fundamental Principles of Friction, Wear, and Lubrication for Electric Vehicles
7. Lubricant Concepts for Electrified Vehicle Transmissions
8. Failure Types and Modes in Critical Electric Vehicle Tribological Components: Rolling Bearings
9. Fretting Wear of Critical Components in Electric Vehicles
10. Tribology of Electric Vehicle MEMS and NEMS
11. Triboelectrochemistry as applied to Electric Vehicles
12. Electric Vehicle Fluids: Types, Properties, and Requirements
13. Greases for Electric Vehicle Motors
14. Advanced Coatings for Electric Vehicles

Part III: Testing of Tribological Hardware, Materials, and Fluids from Electric Vehicles
15. Testing and Performance Evaluation of Electric Vehicle Powertrains
16. Tribological Test Methods for Lubricated Materials for Electric Vehicles
17. Electric Vehicle Powertrain Design and Testing
18. Testing and Evaluation of Oils and Greases for Rolling Bearings of Electric Vehicles
19. Advanced Techniques for Condition Monitoring of Electric Vehicle Components
20. Testing of Physicochemical Properties of Electric Vehicles

Part IV: Future Lubricant Developments for Electric Vehicles
21. Water-based Lubricants for Electric Vehicles
22. Ionic Liquids for Electric Vehicle applications
23. Esters in Cooling and Lubricating Electric Vehicle Transmission Systems
24. Nanolubricants for Electric Vehicles
25. New Fluids and Additives for Electric Vehicle Drivetrains
26. Environmentally-friendly Chemistries, including Lubricants from Plastic Waste