Metallurgical Coatings and Materials Surface Modifications
eBook - PDF

Metallurgical Coatings and Materials Surface Modifications

  1. 474 pages
  2. English
  3. PDF
  4. Available on iOS & Android
eBook - PDF

Metallurgical Coatings and Materials Surface Modifications

About this book

The contributions in this volume represent the work of over ninety international researchers from universities, government laboratories and industry, with diverse backgrounds and interests in a wide range of coatings and surface modifications processes. The seventy-three papers, including seven invited talks and thirty-eight oral communications attest to the fact that surface science and engineering is still a rapidly growing field which attracts experts from the large materials, scientific and technical community.

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Yes, you can access Metallurgical Coatings and Materials Surface Modifications by H.E. Hintermann,J. Spitz in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Chemical & Biochemical Engineering. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Front Cover
  2. Metallurgical Coatings and Materials Surface Modifications
  3. Copyright Page
  4. Table of Contents
  5. Preface
  6. Chapter 1. Hard coatings for tribological applications: a pluridisciplinary approach
  7. Chapter 2. Low friction molybdenum surfaces produced by ion implantation of sulphur ions
  8. Chapter 3. Effect of ion implantation on titanium alloy/polyethylene and 316L stainless steel/polyethylene friction couples running in joint prostheses
  9. Chapter 4. Microscopic aspects of copper, zirconium and iron ion implantation in alumina
  10. Chapter 5. Fully computerized sclero-topometer for simulations and modelling of abrasive wear
  11. Chapter 6. X-ray stress analysis of neon implantation in laser-treated 304 stainless steel
  12. Chapter 7. Properties of arc-evaporated CrN and (Cr,Al)N coatings
  13. Chapter 8. Structure and mechanical properties of reactively sputtered chromium nitrides
  14. Chapter 9. Structure characterization of plasma-deoposited TiN coatings
  15. Chapter 10. Computer simulation of boron nitride deposition by ion-beam-assisted evaporation
  16. Chapter 11. Modification of properties of TiB2 coatings by ion beam mixing during deposition
  17. Chapter 12. Fretting wear of carbon-ion-implanted physical-vapour-deposited TiN coatings
  18. Chapter 13. Hard coatings in the system (Ti, Al)(C, N) prepared by pyrolysis of polymeric precursor films
  19. Chapter 14. CO2-laser-induced chemical vapour deposition of TiB2
  20. Chapter 15. Corrosion of sputtered titanium nitride films deposited on iron and stainless steel
  21. Chapter 16. Characterization of plasma-sprayed titanium coatings on stainless steel
  22. Chapter 17. Corrosion protection of metal implants by sputter-deposited biocompatible ceramic coatings
  23. Chapter 18. Study of the chemical composition of silicon nitride films obtained by chemical vapour deposition and plasma-enhanced chemical vapour deposition
  24. Chapter 19. Transformation of silicon nitride in oxygen plasma
  25. Chapter 20. Influence of pulse reversed current technique on the crystalline orientation and surface morphology of nickel electrodeposits
  26. Chapter 21. Plating of nickel-phosphorus multilayer alloys: current pulse effects on the microstructural and mechanical properties
  27. Chapter 22. Calcium phosphate coatings for orthopaedic prosthesis
  28. Chapter 23. Effect of YC13 addition on chromium pack diffusion type coating of an Ni-Co-ThO2 composite material
  29. Chapter 24. Residual stresses analyses of metallo-organic chemically vapour-deposited Cr7C3 coatings on SAE 4135 steel substrates
  30. Chapter 25. Characterization by glancing angle X-ray diffraction of the interface between austenitic stainless steel AISI 304 substrates and a TiN or Ti/TiN physical vapour deposition coating
  31. Chapter 26. Plasma process for thermodiffusional titanium nitriding
  32. Chapter 27. Morphological study of an alumina-glass coating
  33. References
  34. Chapter 28. Mechanical properties of Cu/Al multilayered thin films
  35. Chapter 29. Real structure of near-surface regions in austenite single crystals after implantation with 30 keV N+ ions studied by synchrotron radiation under grazing incidence conditions
  36. Chapter 30. Modification of surfaces of polymers by ion bombardment for improvement of mechanical properties
  37. Chapter 31. Resistivity and magnetoresistance of monocrystalline TaSi2 and VSi2
  38. Chapter 32. Ceramic coatings and laser treatment
  39. Chapter 33. The effects of xenon bombardment on the dissolution and reprecipitation of carbonitrides produced in nitrogen-implanted low carbon steel
  40. Chapter 34. Tribological behaviour of sprayed coatings for shaft restoration
  41. Chapter 35. Structural and semiconducting characteristics of electro-deposited calcium chalcogenide thin films
  42. Chapter 36. Structure and properties of TiSi2 thin films and TiSi2–Si(111) interfaces
  43. Chapter 37. Induction brazing of diamond with Ni–Cr hardfacing alloy under argon atmosphere
  44. Chapter 38. Interface phenomena and bonding mechanism of thermally-sprayed metal and ceramic composites
  45. Chapter 39. Electronic structure investigation at a zirconia-nickel interface
  46. Chapter 40. A novel shear test for plasma-sprayed coatings
  47. Chapter 41. Characterization of ceramic coatings by photothermal radiometry
  48. Chapter 42. Interfacial fracture toughness of vacuum-plasma-sprayed coatings
  49. Chapter 43. Overview of the characterization methods of the growth mechanisms of low pressure diamond
  50. Chapter 44. Influence of the deposition gas on the properties of plasma-deposited carbonized layers
  51. Chapter 45. Hard diamond-like carbon films prepared by various physical vapour deposition techniques
  52. Chapter 46. Plasma polymerization of CF4 + H2 mixtures on the surface of polyethylene and polyvinylidene fluoride substrates
  53. Chapter 47. Implantation-assisted deposition of hard carbon coatings on steel substrates
  54. Chapter 48. High intensity pulsed ion beams in the surface modification of soilds —experiments carried out in Poland
  55. Chapter 49. Morphological modification of TiC by laser irradiation
  56. Chapter 50. Laser melting of plasma-nitrided steel samples
  57. Chapter 51. Laser surface alloying of steel with TiC
  58. Chapter 52. Remelting of surface coatings on steel by CO2 laser radiation
  59. Chapter 53. Laser surface alloying of carbon steel and α-Fe with CrB2 particles
  60. Chapter 54. Deposition of silica coatings on Incoloy 800H substrates using a high power laser
  61. Chapter 55. Influence of an intermediate layer on the residual stress field in a laser clad
  62. Chapter 56. Laser surface alloying using metal salt precursors
  63. Chapter 57. Corrosion resistance of Fe–Ni–Cr laser surface alloys
  64. Author Index
  65. Subject Index