Front Cover

pp.：  1 – 4

Rapidly Quenched Metals 6

pp.：  4 – 5

Copyright Page

pp.：  5 – 10

Foreword

pp.：  6 – 7

Conference Organization

pp.：  7 – 8

Professeur Jacques Durand

pp.：  8 – 16

Table of Contents

pp.：  10 – 6

Chapter 1. The Impact of Amorphous Metals on the Field of Soft Magnetic Materials

pp.：  16 – 26

Chapter 2. Rare-Earth-Iron-Boron Permanent Magnets by Rapid Solidification Processing

pp.：  26 – 28

Chapter 3. Effects of Magnetostriction in Amorphous Ferromagnets

pp.：  28 – 34

Chapter 4. A New Design for Amorphous Core Distribution Transformer

pp.：  34 – 38

Chapter 5. Synthesis and Magnetic Properties of Iron Nitride Thin Films by Double Ion Beam Sputtering

pp.：  38 – 42

Chapter 6. Fast Dissipative and Diffusional Relaxation of the Magnetic Permeability in Ferromagnetic Metallic Glasses

pp.：  42 – 46

Chapter 7. Structural Changes of Amorphous fe1-x Cx Alloys at x ≈ 0.32

pp.：  46 – 50

Chapter 8. Specific Heat Behaviour on Soft Magnetic Thick Amorphous Ribbons of an Fe–B–Si Alloy

pp.：  50 – 54

Chapter 9. The Influence of the Substitution of Metallic Elements on the Thermal Stability and Magnetic Properties of Amorphous Fe–B–Si Alloys

pp.：  54 – 58

Chapter 10. Magnetic Phase Transition in Amorphous Fe–Ni–B and Fe–B–Si Alloys

pp.：  58 – 62

Chapter 11. Μossbauer Studies of Amorphous FeB and FeBSi Alloys

pp.：  62 – 68

Chapter 12. Magnetic Properties of Amorphous FeCo–SiB Alloys Annealed in Rotating Magnetic Field

pp.：  68 – 72

Chapter 13. Soft Magnetic Properties of Microcrystalline Co–Fe–Si–B Alloys Prepared by Sputtering

pp.：  72 – 76

Chapter 14. Magnetic Energy Density and Friction Factor in Magnetic Amorphous Ribbons

pp.：  76 – 80

Chapter 15. Local Evidence for Re-entrant Magnetic Behaviour in Amorphous Fe90Zr10 Alloys

pp.：  80 – 84

Chapter 16. Magnetic Ordering Behavior of Rare-earth-substituted Fe–Zr Amorphous Alloys

pp.：  84 – 88

Chapter 17. Production and Properties of Melt-spun Fe–6.5wt.%Si Ribbons

pp.：  88 – 92

Chapter 18. Magnetization of Amorphous and Crystalline Co–Si–B Alloys

pp.：  92 – 96

Chapter 19. Magnetic Anisotropy and Process Parameters in a Nearly Zeromagnetostriction Metallic Glass Fe4.5Co66Ni3.5Nb2Cr1B14Si9

pp.：  96 – 102

Chapter 20. Investigation of the Magnetic Stability of Cobalt-based As-quenched Amorphous Alloys

pp.：  102 – 106

Chapter 21. Microstructure and Soft Magnetic Properties of Rapidly Solidified Fe–Al Alloys

pp.：  106 – 110

Chapter 22. Magnetic Properties of Cobalt-rich Amorphous Alloys for Saturable Cores

pp.：  110 – 116

Chapter 23. Effects of Surface Crystallization on the Magnetic Properties in Iron-rich Metallic Glasses

pp.：  116 – 120

Chapter 24. Preparation and Magnetic Properties of Co–Gd Amorphous Alloy Films by the Electroplating Method

pp.：  120 – 124

Chapter 25. Compositional Dependence of Magnetostriction of Amorphous Co–Fe–B and Co–Ni–B Alloys

pp.：  124 – 128

Chapter 26. Magnetic Properties of Amorphous Gd4Fe3 and Y4Fe3 Alloys

pp.：  128 – 134

Chapter 27. Magnetic Stability of Water-quenched Cobalt-based Amorphous Alloy

pp.：  134 – 138

Chapter 28. The Comparative Performance of Nd–(Fe, Co)–B Magnets Formed by Rapid Quenching and by Sintering

pp.：  138 – 142

Chapter 29. Hard Magnetic Properties of Nd–Fe–B Formed by Mechanical Alloying and Solid State Reaction

pp.：  142 – 146

Chapter 30. Preferential Crystallite Orientation in Melt Spun Nd–Fe–B Permanent Magnet Materials

pp.：  146 – 152

Chapter 31. Magnetic Hardening in Melt-spun Fe–R–B Alloys

pp.：  152 – 158

Chapter 32. Influence of Quench Rate and Hydrogen Absorption on the Magnetic Properties of Melt-spun Nd15Fe77B8

pp.：  158 – 162

Chapter 33. Crystallite Size Determinations for Melt-spun Fe–Nd–B Permanent Magnet Alloys

pp.：  162 – 168

Chapter34. Microstructure Studies in Nd2(Fe0.9Co0.1)14BThin Films

pp.：  168 – 172

Chapter 35. Magnetic and Thermal Properties of ( Ndx Fe1-x)82.5 B17.5 Glasses

pp.：  172 – 176

Chapter 36. Magnetic Behaviour in Amorphous Tbx Cu1-x Alloys (x = 0.18,0.22,0.33,0.50 and 0.65)

pp.：  176 – 180

Chapter 37. Electron Transport Properties of Non-magnetic Metallic Glasses

pp.：  180 – 194

Chapter 39. Electronic Transport Properties of Glassy Fe–Sc Alloys

pp.：  194 – 198

Chapter 40. Quantum Corrections to the Conductivity in Mg70Cu30-xAux , x = 0,1, 3, 9, and Mg70Zn 30-x Aux, x = 0,3

pp.：  198 – 202

Chapter 41. The Hall Effect in Paramagnetic Co–Zr Metallic Glasses

pp.：  202 – 206

Chapter 42. Electronic Properties and Localization Effects in Some Hydrogen-doped 4d–3d Metallic Glasses

pp.：  206 – 210

Chapter 43. Dependence of Tc on the Cooling Conditions for Liquid-quenched A15 Chemical Compounds

pp.：  210 – 216

Chapter 44. Superconductivity in Crystalline and Amorphous Nb-Zr Thin Films

pp.：  216 – 222

Chapter 45. Electrical Resistivity of Fe–Cr- and Ni-Cr-Based Amorphous Alloys

pp.：  222 – 226

Chapter 46. Temperature Dependence of Longitudinal Magnetoresistance in Amorphous Fe–Cr–Si–B Alloys

pp.：  226 – 230

Chapter 47. The Scattering Mechanism of Resistivity in Amorphous Fe90–xCoxZr10 Alloys

pp.：  230 – 234

Chapter 48. Electron Transport in Co-evaporated Thin Film and Melt-spun Ribbon Αl 1-x , Μn x, Alloys

pp.：  234 – 238

Chapter 49. Scattering Mechanisms and Transport Properties of Iron-Transition Metal–Boron Amorphous Alloys

pp.：  238 – 242

Chapter 50. The Behaviour of Electrical Resistivity in Amorphous Co100-xBx Alloys

pp.：  242 – 246

Chapter 51. Low-temperature Thermal and Electrical Resistivity in a Pd–Cu–Si Metallic Glass

pp.：  246 – 250

Chapter 52. Intermediate Temperature Range Electrical Resistivity of Some Metallic Glasses

pp.：  250 – 254

Chapter 53. Photoelectron Spectroscopy of Metallic Glasses: Bulk, Interface and Surface Properties

pp.：  254 – 260

Chapter 54. Electronic Structure of Amorphous Transition Metal Alloys

pp.：  260 – 268

Chapter 55. Electronic Structure of Hydrogenated Amorphous Ni–Zr Alloys

pp.：  268 – 272

Chapter 56. Comparison of Amorphous and Liquid Alloys by Photoelectron Spectroscopy

pp.：  272 – 276

Chapter 57. On Many-electron Effects and Multiplet Splittings in X-ray Photoelectron Spectroscopy as a Diagnostic Tool for Metallic Glasses

pp.：  276 – 280

Chapter 58. Photoemission Studies on Metallic Glasses Using Synchrotron Radiation

pp.：  280 – 284

Chapter 59. Electronic Structure and Local Environment of Non-transition Elements in Ternary Metallic Glasses

pp.：  284 – 288

Chapter 60. Electronic Properties of Glassy Metallic Alloys

pp.：  288 – 292

Chapter 61. X-Ray Photoelectron Spectroscopy on Amorphous CuxTe100-x and Nix Te 100-x

pp.：  292 – 296

Chapter 62. Spectroscopic Ellipsometry of Amorphous Ni0.95Tb0.05 and Crystalline Nickel

pp.：  296 – 300

Chapter 63. Local Structure and Stability of Amorphous Cu–Fe–Zr Alloys

pp.：  300 – 304

Chapter 64. Electronic Structure of ( Ni33Zr67)1-xXx (X = Ti, V, Cr, Mn, Fe, Co, Ni or Cu) Ternary Metallic Glasses Studied by Low Temperature Specific Heat Measurements

pp.：  304 – 310

Chapter 65. Electronic Structure and Electron Transport in Ca–Mg–Cu Metallic Glasses

pp.：  310 – 316

Chapter 66. Magnetic Susceptibility and 31P Nuclear Magnetic Resonance Study of the Electronic Structure of Amorphous and Crystalline Ni–Cu–P Alloys

pp.：  316 – 320

Chapter 67. High Resolution Solid State Nuclear Magnetic Resonance Study of the Electronic Structure of Rapidly Quenched Alloys

pp.：  320 – 324

Chapter 68. The Influence of Hydrostatic Pressure on the Superconducting Transition Temperature and Critical Field in the Amorphous Binary Metallic Alloys M–Zr ( M = Fe, Co or Ni)

pp.：  324 – 328

Chapter 69. Optical Reflectivity of Glassy Pd–U–Si Alloys

pp.：  328 – 332

Chapter 70. Electronic Structure of ( Ni33Zr67)85X15 (X = Ti, V, Cr, Mn, Fe, Co and Cu) Metallic Glasses Studied by Photoelectron Spectroscopy

pp.：  332 – 336

Chapter 71.The Discovery of Quasicrystals through Rapid Quenching of Metallic Alloys

pp.：  336 – 338

Chapter 72. Atomic Structure of Quasicrystals

pp.：  338 – 346

Chapter 73. Quasicrystals and Quasicrystal-related Phases in the Al–Mn System

pp.：  346 – 350

Chapter 74. Quasi-crystals Studied with Convergent Beam Electron Diffraction

pp.：  350 – 354

Chapter 75. The Configurational Entropy of Two-dimensional Random Penrose Tilings

pp.：  354 – 360

Chapter 76. Structure of Quasi-crystalline Al–Mn–Ru: X-ray and Neutron Studies

pp.：  360 – 364

Chapter 77. Local Icosahedral Packing Energetics for d-band Metals

pp.：  364 – 368

Chapter 78. Electronic Properties and Resonant States in Al–Mn(–Si) Alloys

pp.：  368 – 372

Chapter 79. Physical Properties of Icosahedral and Glassy Pd–U–Si Alloys

pp.：  372 – 376

Chapter 80. Electronic Structure of Quasi-crystalline AIMn in Comparison with Amorphous and Crystalline Alloys

pp.：  376 – 382

Chapter 81. Metastable Phase Boundaries of Quasicrystalline Phases

pp.：  382 – 392

Chapter 82. Electronic Structure of Quasi-crystals

pp.：  392 – 400

Chapter 83. Thermal Stability of the Icosahedral Phase in Al–Mn (Mn = 4–15 at.%) Alloys Prepared by Planar Flow Casting

pp.：  400 – 404

Chapter 84. Crystallization of the Al–Mn Icosahedral Phase

pp.：  404 – 408

Chapter 85. An Electron-microscopic Investigation of the Transformation Behaviour of Al6Mg4Cu Quasi-crystalline Alloy

pp.：  408 – 414

Chapter 86. Crystallization of Icosahedral Al–Mn–Si

pp.：  414 – 418

Chapter 87. High Pressure Structural Study of Quasicrystalline Al–Mn

pp.：  418 – 422

Chapter 88. Stability of Quasicrystalline Phases in Al–Fe–V Alloys

pp.：  422 – 428

Chapter 89. High Pressure Induced Crystallization of Rapidly Solidified Al–Fe and Al–Mn Quasi-crystalline Alloys

pp.：  428 – 432

Chapter 90. Peritectoid Transformation of Quasi-crystals in Al–Mn Alloys

pp.：  432 – 438

Chapter 91. The Structure of Icosahedral Al–Mg–Cu Alloy

pp.：  438 – 442

Chapter 92. Pair Distribution Function in Icosahedral Al–Mn–Si Alloy

pp.：  442 – 445

References

pp.：  445 – 446

Chapter 93. Preparation and Structural Investigation by X-Ray and Neutron Scattering of Quasi-crystalline and Glassy Pd58.8Si2o.6U2o.6

pp.：  446 – 450

Chapter 94.Preparation and Electrical Properties of Aluminium-based Ternary and Quaternary Quasi-crystals

pp.：  450 – 454

Chapter 95. Low Temperature Calorimetric and Magnetic Properties of Al–Mn and Al–Mn–Si Quasi-crystals

pp.：  454 – 458

Chapter 96. Growth of Quasi-crystals

pp.：  458 – 464

Chapter 97. New Quasi-crystalline and Amorphous Phases in Rapidly Quenched Al–Ge–(Cr, Mn) and Al–Si2–(Cr, Mn) Alloys with High Metalloid Concentrations

pp.：  464 – 468

Chapter 98. Influence of the Quenching Conditions on the Formation of the Icosahedral Phase in Al–Mn Alloys

pp.：  468 – 472

Chapter 99. Hydrogen in Amorphous and Nanocrystalline Metals

pp.：  472 – 478

Chapter 100. Thermodynamics of Η in Amorphous Alloys: A Lattice-gas Model

pp.：  478 – 484

Chapter 101. Solid-state Reaction and Electrocatalytic Activity of Rapidly Quenched Zr50Co3oNi20 Alloys

pp.：  484 – 490

Chapter 102. Chemical Properties and Applications of Some Amorphous Alloys

pp.：  490 – 498

Chapter 103. Corrosion Resistance and Passive Layer Formation in Amorphous Binary Cr Alloys

pp.：  498 – 504

Chapter 104. Laser and Electron Beam Processing of Electrodes Consisting of Amorphous Nickel–Valve Metal–Platinum-group Metal Surface Alloys on Valve Metals

pp.：  504 – 508

Chapter 105. Improved Corrosion Resistance of Rapidly Solidified Fe–Al Bronzes

pp.：  508 – 512

Chapter 106. The Oxidation Behavior of Amorphous and Polycrystalline Zr–Ni Alloys

pp.：  512 – 516

Chapter 107. Investigation of the Microstructure of an Fe91Zr9 Catalyst Prepared from the Amorphous Alloy

pp.：  516 – 522

Chapter 108. Corrosion Behavior of Rapidly Solidified Mg – Nd and Mg – Y Alloys

pp.：  522 – 528

Chapter 109. Segregation and Structural Effects of Boron in Rapidly Solidified Copper–Boron Alloys

pp.：  528 – 532

Chapter 110. Electrochemical Behaviour of Cu–Ti Glassy Alloys

pp.：  532 – 536

Chapter 111. Amorphous Alloy Catalysts for Electro-oxidation of Methanol and its Derivatives in a Sulphuric Acid Solution

pp.：  536 – 540

Chapter 112. Electrochemistry of Chromium-base Binary Metallic Glasses

pp.：  540 – 544

Chapter 113. Behaviour of Fe–Cr–P–C Amorphous Alloys in an Alkaline Medium: Elementary Composition of Superficial Layers and Electrochemical Characterization of Alloy–Solution Interface

pp.：  544 – 548

Chapter 114. The Oxidation Behaviour of Some Cobalt-based Amorphous Alloys

pp.：  548 – 554

Chapter 115. Hydrogen in Some Pd–Si-based Amorphous Alloys and in the Crystallized States

pp.：  554 – 558

Chapter 116. Properties of As-quenched and Hydrogenated Cu–Fe–Ti Alloys

pp.：  558 – 562

Chapter 117. Decomposition of Formic Acid on Fe80B20 Metallic Glasses

pp.：  562 – 566

Chapter 118. Simulation of the Influence of Hydrogen on the Structural Properties of Amorphous Iron

pp.：  566 – 570

Author Index

pp.：  570 – 572

Cumulative Subject Index Vols. 97–99

pp.：  572 – 591