1. Introduction 2. Engineering Materials and Material Selection Processes 3. Stress, Strain and Deflection 4. Design against Static Failure 5. Design against Fatigue Loading 6. Design against Creep, Impact and Fracture 7. Design against Shaft, Axle and Keyways 8. Riveted Joints 9. Welded Joints 10. Design of Fasteners 11. Cotter and Knuckle Joints 12. Mechanical Spring Design 13. Coupling, Clutch and Brakes 14. Power Transmission Drive: Belt Drive 15. Rope Design 16. Chain Drives 17. Fundamentals of Gear Drives and Gear Force Analysis 18. Design of Spur and Helical Gears 19. Bevel and Worm Gear Design 20. Rolling Bearing Selection 21. Journal Bearing 22. Design of Internal Combustion Engine Parts 23Miscelneous Machine Elements 24. Engineering Analysis Tools
This comprehensive text on principles and practice of mechanical design discusses the concepts, procedures, data, tools, and analytical methodologies needed to perform design calculations for the most frequently encountered mechanical elements such as shafts, gears, belt, rope and chain drives, bearings, springs, joints, couplings, brakes and clutches, flywheels, as well as design calculations of various IC engine parts. The book focuses on all aspects of design of machine elements including material selection and life or performance estimation under static, fatigue, impact and creep loading conditions.
The book also introduces various engineering analysis tools such as MATLAB, AutoCAD, and Finite Element Methods with a view to optimizing the design. It also explains the fracture mechanics based design concept with many practical examples. Pedagogically strong, the book features an abundance of worked-out examples, case studies, chapter-end summaries, review questions as well as multiple choice questions which are all well designed to sharpen the learning and design skills of the students.