Metallurgical Coatings and Thin Films 1992
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Metallurgical Coatings and Thin Films 1992

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eBook - PDF

Metallurgical Coatings and Thin Films 1992

About this book

One of the increasingly important requirements for high technology materials is that they possess near-surface properties different to their bulk properties. Specific surface properties are generally achieved through the use of these films or coatings or by modifying the structure or composition of the near surface. This two-volume work contains 157 papers covering a wide range of topics involving films, coatings, and modified surfaces. All aspects of the development of deposition technologies are addressed including basic research, applied research, applications development and full scale industrial production. The work will be of interest to materials scientists, physicists, electronic, chemical and mechanical engineers, and chemists.

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Yes, you can access Metallurgical Coatings and Thin Films 1992 by G.E. McGuire,S. Hofmann,B.D. Sartwell 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 Thin Films 1992
  3. Copyright Page
  4. Table of Contents
  5. Preface
  6. Publication schedule
  7. COMMITTEES
  8. EXHIBITORS
  9. Chapter 1. Effect of substrate composition on the oxidation behavior of platinumaluminized nickel-base superalloys
  10. Chapter 2. Microstructural development in aluminide diffusion coatings on nickelbase superalloy single crystals
  11. Chapter 3. Increasing high temperature oxidation and corrosion resistance of graphite and carbon-fiber-reinforced carbon by deposition of a lowpressure chemically vapor-deposited silicon carbide coating
  12. Chapter 4. Vacuum plasma sprayed alumina-titania coatings
  13. Chapter 5. Erosive wear of CVD ceramic coatings exposed to particulate flow
  14. Chapter 6. The influence of erodent characteristics on the erosion of selected coatings at ambient and elevated temperature
  15. Chapter 7. Evaluation of plasma sprayed abradable coatings
  16. Chapter 8. Thermomechanical behavior and phase relationships of plasma-sprayedzirconia coatings
  17. Chapter 9. Thermal properties and microstructure of two thermal barrier coatings
  18. Chapter 10. Compositionally graded thermal barrier coatings for high temperatureaero gas turbine components
  19. Chapter 11. The effect of residual stress on martensitic transformation inplasma-sprayed ZrO2 (8 wt.%Y2O3 ) coatings
  20. Chapter 12. Acoustic emission study of failure mechanisms in TiC thermal barriercoatings
  21. Chapter 13. TiN films as microlaminate reinforcements in aluminum matrix composites
  22. Chapter 14. Microstructure and resistance to cracking of modified Al–Si and Al–Crdiffusion coatings on ŻS6K nickel-based superalloys
  23. Chapter 15. Low pressure r.f. plasma jet—a new tool for surface processing
  24. Chapter 16. The use of ion effects on the surface in deposition and etching of thinfilms and coatings
  25. Chapter 17. A new technique for testing the impact load of thin films: the coating impact test
  26. Chapter 18. Corrosion studies with hard coating-substrate systems
  27. Chapter 19. Preparation and characterization of V–N films deposited by reactivetriode magnetron sputtering
  28. Chapter 20. Recent progress in the study of physically vapour-deposited coatings produced by means of highly ionized plasmas
  29. Chapter 21. Sputter erosion amplification
  30. Chapter 22. The deposition of thin films by filtered arc evaporation
  31. Chapter 23. Planar magnetron-sputtering system with obliquely facing targets
  32. Chapter 24. Deposition of ternary hard compounds with a graded composition by the use of a hybrid source ion-plating technique
  33. Chapter 25. X-ray elastic constants and residual stress of textured titaniumnitride coating
  34. Chapter 26. Examination of residual stress, morphology and mechanical properties of sputtered TiN films
  35. Chapter 27. Effect of process parameters on the residual stresses and the wearbehavior of aluminum nitride physical vapor deposition coatings
  36. Chapter 28. Residual stress in ion-assisted coatings
  37. Chapter 29. On the residual stress and picostructure of titanium nitride filmsI: Implantation with argon or krypton
  38. Chapter 30. Microstructural study of the K - Al2O3→ α-Al2O3 transformation in CVD K - Al2O3
  39. Chapter 31. Deposition of multilayer hard coatings using kinetically controlled chemical vapour deposition processes
  40. Chapter 32. Reactor design for chemical vapor deposition of tungsten carbide coatings
  41. Chapter 33. Assessment of tetra-alkylchromium compounds for low temperature organo-metallic chemical vapour deposition of Cr-based coatings
  42. Chapter 34. Fundamental aspects of film nucleation and growth in chemical vapor deposition
  43. Chapter 35. Chemical vapor deposition in fluidized bed reactors
  44. Chapter 36. Coatings for corrosion protection of steel used in reinforced concrete
  45. Chapter 37. Low pressure chemical vapor deposition of massive Si1–xGex gradientcrystals and applications in short-wavelength diffraction
  46. Chapter 38. Aluminum and alumina coatings on copper by chemical vapor deposition in fluidized bed reactors
  47. Chapter 39. Multicomponent and multilayer physically vapour deposited coatings for cutting tools
  48. Chapter 40. Arc-evaporated Ti–V–N thin films
  49. Chapter 41. Ti–B–N coatings deposited by magnetron arc evaporation
  50. Chapter 42. Crystal structure of molybdenum nitride films made by reactive cathodicarc evaporation
  51. Chapter 43. Microstructural and tribological study of triode magnetron sputtered V–C coatings: influence of partial pressure of reactive gas
  52. Chapter 44. Decorative properties and chemical composition of hard coatings
  53. Chapter 45. Interface study of physically vapour-deposited TiN coatings on plasmanitrided tool steel surfaces with Auger electron spectroscopy, resonant nuclear reaction analysis and Rutherford backscattering spectroscopy
  54. Chapter 46. Growth and properties of hard coatings prepared by physical vapordeposition methods
  55. Chapter 47. The coating of internal surfaces by PVD techniques
  56. Chapter 48. High resistivity A\OX thin films deposited by a novel two-step sputtering process
  57. Chapter 49. Sputtered yttria partially stabilized zirconia layers applied to thin filmheat fluxmeters
  58. Chapter 50. Impurities in ion plated chromium films
  59. Chapter 51. Sputtered silver and Cr–C films for applications as interconnect materials
  60. Chapter 52. Structure and mechanical properties of hard W–C coatings deposited byreactive magnetron sputtering
  61. Chapter 53. Sputter deposition of decorative coatings based on ZrB2 and ZrB
  62. Chapter 54. Ion-beam deposition of Zr–Al multilayers and their structural properties
  63. Chapter 55. Fundamental mechanisms of titanium nitride formation by d.c.magnetron sputtering
  64. Chapter 56. Thin film deposition techniques utilizing the anodic vacuum arc
  65. Chapter 57. Working gas pressure and flow effects on reactively sputtered molybdenum oxide thin films
  66. Chapter 58. Effect of deposition parameters on the formation of cubic BN film sdeposited by plasma-assisted chemical vapour deposition from non-toxicmaterial
  67. Chapter 59. Growth and characterization of C–N thin films
  68. Chapter 60. Increase in nucleation density of diamond film growth by d.c. plasma chemical vapor deposition
  69. Chapter 61. The role of hydrogen in diamond synthesis from carbon dioxidehydrocarbon gases by microwave plasma chemical vapor deposition
  70. Chapter 62. Synthesis of diamond thin films through a transformation of a catalytically produced diamond precursor phase
  71. Chapter 63. The effect of noble gases on the formation of CVD diamond film
  72. Chapter 64. Crystallite geometry of hot filament chemical vapor deposited diamond
  73. Chapter 65. Diamond film growth on cemented tungsten carbides studied by SEM,AES and XPS
  74. Chapter 66. Formation of diamond films from low pressure radio frequency induction discharges
  75. Chapter 67. Diamond coating using multiple flame torches in an atmospheric chamber
  76. Chapter 68. Diamond synthesis in supersonic direct-current arcjet plasma at subtorrpressures
  77. Chapter 69. Investigation of the early stages of diamond film growth by ellipsometric monitoring
  78. Chapter 70. Adhesion and structure of c-BN films produced by ion-beam-assisted deposition
  79. Chapter 71. Effects of surface composition, environment and morphology on frictionand wear: an overview
  80. Chapter 72. Friction and wear of diamond and diamondlike carbon coatings
  81. Chapter 73. Applications of solid lubricant films in spacecraft
  82. Chapter 74. Aluminum metal matrix composites tailored for antifriction applications
  83. Chapter 75. Microstructure and tribological behaviour of plasma immersion ionimplanted tool steels
  84. Chapter 76. Performance and wear of carbide coated by physical vapour depositionin interrupted cutting
  85. Chapter 77. A comparison of the tribological behaviour of several wear-resistant coatings
  86. Chapter 78. Study of the relative wear and abrasion resistance of Ti(C,N) and TiN coatings
  87. Chapter 79. New ways towards better exploitation of physical vapour depositioncoatings
  88. Chapter 80. Substrate- and interface-related influences on the performance of arcphysical-vapour-deposition-coated cemented carbides in interrupted-cutmachining
  89. Chapter 81. Rolling-contact fatigue and wear resistance of hard coatings on bearingsteel substrates
  90. Chapter 82. Scuffing behavior of TiN-coated steel rollers under rolling and sliding conditions
  91. Chapter 83. Tribological behavior of oil-lubricated TiN-coated steel
  92. Chapter 84. Properties of TiN coatings deposited onto hot work steel substrates plasma nitrided at low pressure
  93. Chapter 85. Effects of nitrogen ion implantation on the mechanical properties oflaser-deposited thin films of TiC and TiN on stainless steel
  94. Chapter 86. Surface modification and wear characteristics of yttria-doped zirconia
  95. Chapter 87. Some tribological observations of sliding tungsten carbide coated steelagainst aluminum
  96. Chapter 88. Erosion and erosion-corrosion behavior of chromized-siliconized steel
  97. Chapter 89. Physical vapour deposition coatings for dental prostheses
  98. Chapter 90. The morphology and mechanical properties of Al2O3, ZrO2 and SiC laser-assisted physically vapour deposited films
  99. Chapter 91. Multilayer Ti-Cu sputter films for the Gravity Probe B gyroscope housings
  100. Chapter 92. Properties of sputter-deposited hydrogenated carbon films as atribological overcoat used in rigid magnetic disks
  101. Chapter 93. Nanoindentation and microindentation studies of hard carbon on 304stainless steel
  102. Chapter 94. Tribological properties of hard carbon films: extremely low friction mechanism of amorphous hydrogenated carbon films and amorphous hydrogenated SiC films in vacuum
  103. Chapter 95. Tribological properties of hard carbon films produced by the pulsed vacuum arc discharge method
  104. Chapter 96. Physical and tribological properties of rapid thermal annealed diamondlike carbon films
  105. Chapter 97. Protective coatings of amorphic diamond on fragile and sensitive substrates
  106. Chapter 98. Current Industrial Practices
  107. Chapter 99. Current Industrial Practices
  108. Chapter 100. The in-line arc ion-plating system for high throughput processing of automobile parts
  109. Chapter 101. Adherent metallization of carbon-fibre-reinforced plastic composites using a combined vacuum/electrochemical deposition process
  110. Chapter 102. Development of mass-production-type plasma chemical vapour deposition equipment and its application to various dies
  111. Author Index of Volume 54/55
  112. Subject Index of Volume 54/55