Front Cover

pp.：  1 – 4

Metallurgical Coatings and Thin Films 1992

pp.：  4 – 5

Copyright Page

pp.：  5 – 10

Preface

pp.：  6 – 8

Publication schedule

pp.：  8 – 16

Table of Contents

pp.：  10 – 6

COMMITTEES

pp.：  16 – 21

EXHIBITORS

pp.：  21 – 22

Chapter 1. Effect of substrate composition on the oxidation behavior of platinumaluminized nickel-base superalloys

pp.：  22 – 29

Chapter 2. Microstructural development in aluminide diffusion coatings on nickelbase superalloy single crystals

pp.：  29 – 34

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

pp.：  34 – 40

Chapter 4. Vacuum plasma sprayed alumina-titania coatings

pp.：  40 – 46

Chapter 5. Erosive wear of CVD ceramic coatings exposed to particulate flow

pp.：  46 – 53

Chapter 6. The influence of erodent characteristics on the erosion of selected coatings at ambient and elevated temperature

pp.：  53 – 60

Chapter 7. Evaluation of plasma sprayed abradable coatings

pp.：  60 – 66

Chapter 8. Thermomechanical behavior and phase relationships of plasma-sprayedzirconia coatings

pp.：  66 – 74

Chapter 9. Thermal properties and microstructure of two thermal barrier coatings

pp.：  74 – 79

Chapter 10. Compositionally graded thermal barrier coatings for high temperatureaero gas turbine components

pp.：  79 – 85

Chapter 11. The effect of residual stress on martensitic transformation inplasma-sprayed ZrO2 (8 wt.%Y2O3 ) coatings

pp.：  85 – 91

Chapter 12. Acoustic emission study of failure mechanisms in TiC thermal barriercoatings

pp.：  91 – 98

Chapter 13. TiN films as microlaminate reinforcements in aluminum matrix composites

pp.：  98 – 105

Chapter 14. Microstructure and resistance to cracking of modified Al–Si and Al–Crdiffusion coatings on ŻS6K nickel-based superalloys

pp.：  105 – 112

Chapter 15. Low pressure r.f. plasma jet—a new tool for surface processing

pp.：  112 – 117

Chapter 16. The use of ion effects on the surface in deposition and etching of thinfilms and coatings

pp.：  117 – 123

Chapter 17. A new technique for testing the impact load of thin films: the coating impact test

pp.：  123 – 129

Chapter 18. Corrosion studies with hard coating-substrate systems

pp.：  129 – 136

Chapter 19. Preparation and characterization of V–N films deposited by reactivetriode magnetron sputtering

pp.：  136 – 142

Chapter 20. Recent progress in the study of physically vapour-deposited coatings produced by means of highly ionized plasmas

pp.：  142 – 152

Chapter 21. Sputter erosion amplification

pp.：  152 – 157

Chapter 22. The deposition of thin films by filtered arc evaporation

pp.：  157 – 164

Chapter 23. Planar magnetron-sputtering system with obliquely facing targets

pp.：  164 – 169

Chapter 24. Deposition of ternary hard compounds with a graded composition by the use of a hybrid source ion-plating technique

pp.：  169 – 175

Chapter 25. X-ray elastic constants and residual stress of textured titaniumnitride coating

pp.：  175 – 181

Chapter 26. Examination of residual stress, morphology and mechanical properties of sputtered TiN films

pp.：  181 – 188

Chapter 27. Effect of process parameters on the residual stresses and the wearbehavior of aluminum nitride physical vapor deposition coatings

pp.：  188 – 194

Chapter 28. Residual stress in ion-assisted coatings

pp.：  194 – 201

Chapter 29. On the residual stress and picostructure of titanium nitride filmsI: Implantation with argon or krypton

pp.：  201 – 207

Chapter 30. Microstructural study of the K - Al2O3→ α-Al2O3 transformation in CVD K - Al2O3

pp.：  207 – 214

Chapter 31. Deposition of multilayer hard coatings using kinetically controlled chemical vapour deposition processes

pp.：  214 – 219

Chapter 32. Reactor design for chemical vapor deposition of tungsten carbide coatings

pp.：  219 – 225

Chapter 33. Assessment of tetra-alkylchromium compounds for low temperature organo-metallic chemical vapour deposition of Cr-based coatings

pp.：  225 – 232

Chapter 34. Fundamental aspects of film nucleation and growth in chemical vapor deposition

pp.：  232 – 240

Chapter 35. Chemical vapor deposition in fluidized bed reactors

pp.：  240 – 245

Chapter 36. Coatings for corrosion protection of steel used in reinforced concrete

pp.：  245 – 250

Chapter 37. Low pressure chemical vapor deposition of massive Si1–xGex gradientcrystals and applications in short-wavelength diffraction

pp.：  250 – 255

Chapter 38. Aluminum and alumina coatings on copper by chemical vapor deposition in fluidized bed reactors

pp.：  255 – 262

Chapter 39. Multicomponent and multilayer physically vapour deposited coatings for cutting tools

pp.：  262 – 270

Chapter 40. Arc-evaporated Ti–V–N thin films

pp.：  270 – 276

Chapter 41. Ti–B–N coatings deposited by magnetron arc evaporation

pp.：  276 – 282

Chapter 42. Crystal structure of molybdenum nitride films made by reactive cathodicarc evaporation

pp.：  282 – 287

Chapter 43. Microstructural and tribological study of triode magnetron sputtered V–C coatings: influence of partial pressure of reactive gas

pp.：  287 – 294

Chapter 44. Decorative properties and chemical composition of hard coatings

pp.：  294 – 300

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

pp.：  300 – 308

Chapter 46. Growth and properties of hard coatings prepared by physical vapordeposition methods

pp.：  308 – 318

Chapter 47. The coating of internal surfaces by PVD techniques

pp.：  318 – 324

Chapter 48. High resistivity A\OX thin films deposited by a novel two-step sputtering process

pp.：  324 – 329

Chapter 49. Sputtered yttria partially stabilized zirconia layers applied to thin filmheat fluxmeters

pp.：  329 – 336

Chapter 50. Impurities in ion plated chromium films

pp.：  336 – 341

Chapter 51. Sputtered silver and Cr–C films for applications as interconnect materials

pp.：  341 – 345

Chapter 52. Structure and mechanical properties of hard W–C coatings deposited byreactive magnetron sputtering

pp.：  345 – 350

Chapter 53. Sputter deposition of decorative coatings based on ZrB2 and ZrB

pp.：  350 – 356

Chapter 54. Ion-beam deposition of Zr–Al multilayers and their structural properties

pp.：  356 – 359

Chapter 55. Fundamental mechanisms of titanium nitride formation by d.c.magnetron sputtering

pp.：  359 – 364

Chapter 56. Thin film deposition techniques utilizing the anodic vacuum arc

pp.：  364 – 370

Chapter 57. Working gas pressure and flow effects on reactively sputtered molybdenum oxide thin films

pp.：  370 – 376

Chapter 58. Effect of deposition parameters on the formation of cubic BN film sdeposited by plasma-assisted chemical vapour deposition from non-toxicmaterial

pp.：  376 – 381

Chapter 59. Growth and characterization of C–N thin films

pp.：  381 – 386

Chapter 60. Increase in nucleation density of diamond film growth by d.c. plasma chemical vapor deposition

pp.：  386 – 389

Chapter 61. The role of hydrogen in diamond synthesis from carbon dioxidehydrocarbon gases by microwave plasma chemical vapor deposition

pp.：  389 – 395

Chapter 62. Synthesis of diamond thin films through a transformation of a catalytically produced diamond precursor phase

pp.：  395 – 401

Chapter 63. The effect of noble gases on the formation of CVD diamond film

pp.：  401 – 408

Chapter 64. Crystallite geometry of hot filament chemical vapor deposited diamond

pp.：  408 – 413

Chapter 65. Diamond film growth on cemented tungsten carbides studied by SEM,AES and XPS

pp.：  413 – 418

Chapter 66. Formation of diamond films from low pressure radio frequency induction discharges

pp.：  418 – 424

Chapter 67. Diamond coating using multiple flame torches in an atmospheric chamber

pp.：  424 – 429

Chapter 68. Diamond synthesis in supersonic direct-current arcjet plasma at subtorrpressures

pp.：  429 – 435

Chapter 69. Investigation of the early stages of diamond film growth by ellipsometric monitoring

pp.：  435 – 439

Chapter 70. Adhesion and structure of c-BN films produced by ion-beam-assisted deposition

pp.：  439 – 444

Chapter 71. Effects of surface composition, environment and morphology on frictionand wear: an overview

pp.：  444 – 449

Chapter 72. Friction and wear of diamond and diamondlike carbon coatings

pp.：  449 – 456

Chapter 73. Applications of solid lubricant films in spacecraft

pp.：  456 – 463

Chapter 74. Aluminum metal matrix composites tailored for antifriction applications

pp.：  463 – 468

Chapter 75. Microstructure and tribological behaviour of plasma immersion ionimplanted tool steels

pp.：  468 – 474

Chapter 76. Performance and wear of carbide coated by physical vapour depositionin interrupted cutting

pp.：  474 – 480

Chapter 77. A comparison of the tribological behaviour of several wear-resistant coatings

pp.：  480 – 487

Chapter 78. Study of the relative wear and abrasion resistance of Ti(C,N) and TiN coatings

pp.：  487 – 491

Chapter 79. New ways towards better exploitation of physical vapour depositioncoatings

pp.：  491 – 497

Chapter 80. Substrate- and interface-related influences on the performance of arcphysical-vapour-deposition-coated cemented carbides in interrupted-cutmachining

pp.：  497 – 503

Chapter 81. Rolling-contact fatigue and wear resistance of hard coatings on bearingsteel substrates

pp.：  503 – 511

Chapter 82. Scuffing behavior of TiN-coated steel rollers under rolling and sliding conditions

pp.：  511 – 517

Chapter 83. Tribological behavior of oil-lubricated TiN-coated steel

pp.：  517 – 523

Chapter 84. Properties of TiN coatings deposited onto hot work steel substrates plasma nitrided at low pressure

pp.：  523 – 529

Chapter 85. Effects of nitrogen ion implantation on the mechanical properties oflaser-deposited thin films of TiC and TiN on stainless steel

pp.：  529 – 537

Chapter 86. Surface modification and wear characteristics of yttria-doped zirconia

pp.：  537 – 542

Chapter 87. Some tribological observations of sliding tungsten carbide coated steelagainst aluminum

pp.：  542 – 550

Chapter 88. Erosion and erosion-corrosion behavior of chromized-siliconized steel

pp.：  550 – 557

Chapter 89. Physical vapour deposition coatings for dental prostheses

pp.：  557 – 562

Chapter 90. The morphology and mechanical properties of Al2O3, ZrO2 and SiC laser-assisted physically vapour deposited films

pp.：  562 – 569

Chapter 91. Multilayer Ti-Cu sputter films for the Gravity Probe B gyroscope housings

pp.：  569 – 573

Chapter 92. Properties of sputter-deposited hydrogenated carbon films as atribological overcoat used in rigid magnetic disks

pp.：  573 – 578

Chapter 93. Nanoindentation and microindentation studies of hard carbon on 304stainless steel

pp.：  578 – 584

Chapter 94. Tribological properties of hard carbon films: extremely low friction mechanism of amorphous hydrogenated carbon films and amorphous hydrogenated SiC films in vacuum

pp.：  584 – 591

Chapter 95. Tribological properties of hard carbon films produced by the pulsed vacuum arc discharge method

pp.：  591 – 597

Chapter 96. Physical and tribological properties of rapid thermal annealed diamondlike carbon films

pp.：  597 – 602

Chapter 97. Protective coatings of amorphic diamond on fragile and sensitive substrates

pp.：  602 – 607

Chapter 98. Current Industrial Practices

pp.：  607 – 611

Chapter 99. Current Industrial Practices

pp.：  611 – 615

Chapter 100. The in-line arc ion-plating system for high throughput processing of automobile parts

pp.：  615 – 620

Chapter 101. Adherent metallization of carbon-fibre-reinforced plastic composites using a combined vacuum/electrochemical deposition process

pp.：  620 – 625

Chapter 102. Development of mass-production-type plasma chemical vapour deposition equipment and its application to various dies

pp.：  625 – 630

Author Index of Volume 54/55

pp.：  630 – 632

Subject Index of Volume 54/55

pp.：  632 – 639