Description

Book Synopsis


Table of Contents
1. Engineering Materials and Their Properties Part A: Price and Availability2. Price and Availability of Materials Part B: Elastice Moduli3. Elastic Moduli4. Bonding between Atoms5. Packing of Atoms in Solids6. Physical Basis of Young’s Modulus7. Applications of Elastic Deformation8. Case Studies in Modulus-Limited Design Part C: Yield Strength, Tensile Strength, and Ductility9. Yield Strength, Tensile Strength, and Ductility10. Dislocations and Yielding in Crystals11. Strengthening and Plasticity of Polycrystals12. Continuum Aspects of Plastic Flow13. Case Studies in Yield-Limited Design Part D: Fast Fracture, Brittle Fracture, and Toughness14. Fast Fracture and Toughness15. Micromechanisms of Fast Fracture16. Fracture Probability of Brittle Materials17. Case Studies in Fracture Part E: Fatigue Failure18. Fatigue Failure19. Fatigue Design20. Case Studies in Fatigue Failure Part F: Creep Deformation and Fracture21. Creep Deformation and Fracture22. Kinetic Theory of Diffusion23. Mechanisms of Creep, and Creep-Resistant Materials24. The Turbine Blade—A Case Study in Creep-Limited Design Part G: Oxidation and Corrosion25. Oxidation of Materials26. Case Studies in Dry Oxidation27. Wet Corrosion of Materials28. Case Studies in Wet Corrosion Part H: Friction and Wear29. Friction and Wear30. Case Studies in Friction and Wear Part I: Thermal Properties31. Thermal Expansion32. Thermal Conductivity and Specific Heat33. Final Case Study:Materials and Energy in Car Design Appendix

Engineering Materials 1

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    A Paperback / softback by David R.H. Jones, Michael F. Ashby

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      View other formats and editions of Engineering Materials 1 by David R.H. Jones

      Publisher: Elsevier Science & Technology
      Publication Date: 15/12/2018
      ISBN13: 9780081020517, 978-0081020517
      ISBN10: 0081020511
      Also in:
      Technology, Engineering & Agriculture Materials science

      Description

      Book Synopsis


      Table of Contents
      1. Engineering Materials and Their Properties Part A: Price and Availability2. Price and Availability of Materials Part B: Elastice Moduli3. Elastic Moduli4. Bonding between Atoms5. Packing of Atoms in Solids6. Physical Basis of Young’s Modulus7. Applications of Elastic Deformation8. Case Studies in Modulus-Limited Design Part C: Yield Strength, Tensile Strength, and Ductility9. Yield Strength, Tensile Strength, and Ductility10. Dislocations and Yielding in Crystals11. Strengthening and Plasticity of Polycrystals12. Continuum Aspects of Plastic Flow13. Case Studies in Yield-Limited Design Part D: Fast Fracture, Brittle Fracture, and Toughness14. Fast Fracture and Toughness15. Micromechanisms of Fast Fracture16. Fracture Probability of Brittle Materials17. Case Studies in Fracture Part E: Fatigue Failure18. Fatigue Failure19. Fatigue Design20. Case Studies in Fatigue Failure Part F: Creep Deformation and Fracture21. Creep Deformation and Fracture22. Kinetic Theory of Diffusion23. Mechanisms of Creep, and Creep-Resistant Materials24. The Turbine Blade—A Case Study in Creep-Limited Design Part G: Oxidation and Corrosion25. Oxidation of Materials26. Case Studies in Dry Oxidation27. Wet Corrosion of Materials28. Case Studies in Wet Corrosion Part H: Friction and Wear29. Friction and Wear30. Case Studies in Friction and Wear Part I: Thermal Properties31. Thermal Expansion32. Thermal Conductivity and Specific Heat33. Final Case Study:Materials and Energy in Car Design Appendix

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