Table of contents

1. Front Cover
2. Rapidly Quenched Metals 6
3. Copyright Page
4. Table of Contents
5. Foreword
6. Conference Organization
7. Professeur Jacques Durand
8. Chapter 1. The Impact of Amorphous Metals on the Field of Soft Magnetic Materials
9. Chapter 2. Rare-Earth-Iron-Boron Permanent Magnets by Rapid Solidification Processing
10. Chapter 3. Effects of Magnetostriction in Amorphous Ferromagnets
11. Chapter 4. A New Design for Amorphous Core Distribution Transformer
12. Chapter 5. Synthesis and Magnetic Properties of Iron Nitride Thin Films by Double Ion Beam Sputtering
13. Chapter 6. Fast Dissipative and Diffusional Relaxation of the Magnetic Permeability in Ferromagnetic Metallic Glasses
14. Chapter 7. Structural Changes of Amorphous fe1-x Cx Alloys at x ≈ 0.32
15. Chapter 8. Specific Heat Behaviour on Soft Magnetic Thick Amorphous Ribbons of an Fe–B–Si Alloy
16. Chapter 9. The Influence of the Substitution of Metallic Elements on the Thermal Stability and Magnetic Properties of Amorphous Fe–B–Si Alloys
17. Chapter 10. Magnetic Phase Transition in Amorphous Fe–Ni–B and Fe–B–Si Alloys
18. Chapter 11. Μossbauer Studies of Amorphous FeB and FeBSi Alloys
19. Chapter 12. Magnetic Properties of Amorphous FeCo–SiB Alloys Annealed in Rotating Magnetic Field
20. Chapter 13. Soft Magnetic Properties of Microcrystalline Co–Fe–Si–B Alloys Prepared by Sputtering
21. Chapter 14. Magnetic Energy Density and Friction Factor in Magnetic Amorphous Ribbons
22. Chapter 15. Local Evidence for Re-entrant Magnetic Behaviour in Amorphous Fe90Zr10 Alloys
23. Chapter 16. Magnetic Ordering Behavior of Rare-earth-substituted Fe–Zr Amorphous Alloys
24. Chapter 17. Production and Properties of Melt-spun Fe–6.5wt.%Si Ribbons
25. Chapter 18. Magnetization of Amorphous and Crystalline Co–Si–B Alloys
26. Chapter 19. Magnetic Anisotropy and Process Parameters in a Nearly Zeromagnetostriction Metallic Glass Fe4.5Co66Ni3.5Nb2Cr1B14Si9
27. Chapter 20. Investigation of the Magnetic Stability of Cobalt-based As-quenched Amorphous Alloys
28. Chapter 21. Microstructure and Soft Magnetic Properties of Rapidly Solidified Fe–Al Alloys
29. Chapter 22. Magnetic Properties of Cobalt-rich Amorphous Alloys for Saturable Cores
30. Chapter 23. Effects of Surface Crystallization on the Magnetic Properties in Iron-rich Metallic Glasses
31. Chapter 24. Preparation and Magnetic Properties of Co–Gd Amorphous Alloy Films by the Electroplating Method
32. Chapter 25. Compositional Dependence of Magnetostriction of Amorphous Co–Fe–B and Co–Ni–B Alloys
33. Chapter 26. Magnetic Properties of Amorphous Gd4Fe3 and Y4Fe3 Alloys
34. Chapter 27. Magnetic Stability of Water-quenched Cobalt-based Amorphous Alloy
35. Chapter 28. The Comparative Performance of Nd–(Fe, Co)–B Magnets Formed by Rapid Quenching and by Sintering
36. Chapter 29. Hard Magnetic Properties of Nd–Fe–B Formed by Mechanical Alloying and Solid State Reaction
37. Chapter 30. Preferential Crystallite Orientation in Melt Spun Nd–Fe–B Permanent Magnet Materials
38. Chapter 31. Magnetic Hardening in Melt-spun Fe–R–B Alloys
39. Chapter 32. Influence of Quench Rate and Hydrogen Absorption on the Magnetic Properties of Melt-spun Nd15Fe77B8
40. Chapter 33. Crystallite Size Determinations for Melt-spun Fe–Nd–B Permanent Magnet Alloys
41. Chapter34. Microstructure Studies in Nd2(Fe0.9Co0.1)14BThin Films
42. Chapter 35. Magnetic and Thermal Properties of ( Ndx Fe1-x)82.5 B17.5 Glasses
43. Chapter 36. Magnetic Behaviour in Amorphous Tbx Cu1-x Alloys (x = 0.18,0.22,0.33,0.50 and 0.65)
44. Chapter 37. Electron Transport Properties of Non-magnetic Metallic Glasses
45. Chapter 39. Electronic Transport Properties of Glassy Fe–Sc Alloys
46. Chapter 40. Quantum Corrections to the Conductivity in Mg70Cu30-xAux , x = 0,1, 3, 9, and Mg70Zn 30-x Aux, x = 0,3
47. Chapter 41. The Hall Effect in Paramagnetic Co–Zr Metallic Glasses
48. Chapter 42. Electronic Properties and Localization Effects in Some Hydrogen-doped 4d–3d Metallic Glasses
49. Chapter 43. Dependence of Tc on the Cooling Conditions for Liquid-quenched A15 Chemical Compounds
50. Chapter 44. Superconductivity in Crystalline and Amorphous Nb-Zr Thin Films
51. Chapter 45. Electrical Resistivity of Fe–Cr- and Ni-Cr-Based Amorphous Alloys
52. Chapter 46. Temperature Dependence of Longitudinal Magnetoresistance in Amorphous Fe–Cr–Si–B Alloys
53. Chapter 47. The Scattering Mechanism of Resistivity in Amorphous Fe90–xCoxZr10 Alloys
54. Chapter 48. Electron Transport in Co-evaporated Thin Film and Melt-spun Ribbon Αl 1-x , Μn x, Alloys
55. Chapter 49. Scattering Mechanisms and Transport Properties of Iron-Transition Metal–Boron Amorphous Alloys
56. Chapter 50. The Behaviour of Electrical Resistivity in Amorphous Co100-xBx Alloys
57. Chapter 51. Low-temperature Thermal and Electrical Resistivity in a Pd–Cu–Si Metallic Glass
58. Chapter 52. Intermediate Temperature Range Electrical Resistivity of Some Metallic Glasses
59. Chapter 53. Photoelectron Spectroscopy of Metallic Glasses: Bulk, Interface and Surface Properties
60. Chapter 54. Electronic Structure of Amorphous Transition Metal Alloys
61. Chapter 55. Electronic Structure of Hydrogenated Amorphous Ni–Zr Alloys
62. Chapter 56. Comparison of Amorphous and Liquid Alloys by Photoelectron Spectroscopy
63. Chapter 57. On Many-electron Effects and Multiplet Splittings in X-ray Photoelectron Spectroscopy as a Diagnostic Tool for Metallic Glasses
64. Chapter 58. Photoemission Studies on Metallic Glasses Using Synchrotron Radiation
65. Chapter 59. Electronic Structure and Local Environment of Non-transition Elements in Ternary Metallic Glasses
66. Chapter 60. Electronic Properties of Glassy Metallic Alloys
67. Chapter 61. X-Ray Photoelectron Spectroscopy on Amorphous CuxTe100-x and Nix Te 100-x
68. Chapter 62. Spectroscopic Ellipsometry of Amorphous Ni0.95Tb0.05 and Crystalline Nickel
69. Chapter 63. Local Structure and Stability of Amorphous Cu–Fe–Zr Alloys
70. 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
71. Chapter 65. Electronic Structure and Electron Transport in Ca–Mg–Cu Metallic Glasses
72. Chapter 66. Magnetic Susceptibility and 31P Nuclear Magnetic Resonance Study of the Electronic Structure of Amorphous and Crystalline Ni–Cu–P Alloys
73. Chapter 67. High Resolution Solid State Nuclear Magnetic Resonance Study of the Electronic Structure of Rapidly Quenched Alloys
74. 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)
75. Chapter 69. Optical Reflectivity of Glassy Pd–U–Si Alloys
76. Chapter 70. Electronic Structure of ( Ni33Zr67)85X15 (X = Ti, V, Cr, Mn, Fe, Co and Cu) Metallic Glasses Studied by Photoelectron Spectroscopy
77. Chapter 71.The Discovery of Quasicrystals through Rapid Quenching of Metallic Alloys
78. Chapter 72. Atomic Structure of Quasicrystals
79. Chapter 73. Quasicrystals and Quasicrystal-related Phases in the Al–Mn System
80. Chapter 74. Quasi-crystals Studied with Convergent Beam Electron Diffraction
81. Chapter 75. The Configurational Entropy of Two-dimensional Random Penrose Tilings
82. Chapter 76. Structure of Quasi-crystalline Al–Mn–Ru: X-ray and Neutron Studies
83. Chapter 77. Local Icosahedral Packing Energetics for d-band Metals
84. Chapter 78. Electronic Properties and Resonant States in Al–Mn(–Si) Alloys
85. Chapter 79. Physical Properties of Icosahedral and Glassy Pd–U–Si Alloys
86. Chapter 80. Electronic Structure of Quasi-crystalline AIMn in Comparison with Amorphous and Crystalline Alloys
87. Chapter 81. Metastable Phase Boundaries of Quasicrystalline Phases
88. Chapter 82. Electronic Structure of Quasi-crystals
89. Chapter 83. Thermal Stability of the Icosahedral Phase in Al–Mn (Mn = 4–15 at.%) Alloys Prepared by Planar Flow Casting
90. Chapter 84. Crystallization of the Al–Mn Icosahedral Phase
91. Chapter 85. An Electron-microscopic Investigation of the Transformation Behaviour of Al6Mg4Cu Quasi-crystalline Alloy
92. Chapter 86. Crystallization of Icosahedral Al–Mn–Si
93. Chapter 87. High Pressure Structural Study of Quasicrystalline Al–Mn
94. Chapter 88. Stability of Quasicrystalline Phases in Al–Fe–V Alloys
95. Chapter 89. High Pressure Induced Crystallization of Rapidly Solidified Al–Fe and Al–Mn Quasi-crystalline Alloys
96. Chapter 90. Peritectoid Transformation of Quasi-crystals in Al–Mn Alloys
97. Chapter 91. The Structure of Icosahedral Al–Mg–Cu Alloy
98. Chapter 92. Pair Distribution Function in Icosahedral Al–Mn–Si Alloy
99. References
100. Chapter 93. Preparation and Structural Investigation by X-Ray and Neutron Scattering of Quasi-crystalline and Glassy Pd58.8Si2o.6U2o.6
101. Chapter 94.Preparation and Electrical Properties of Aluminium-based Ternary and Quaternary Quasi-crystals
102. Chapter 95. Low Temperature Calorimetric and Magnetic Properties of Al–Mn and Al–Mn–Si Quasi-crystals
103. Chapter 96. Growth of Quasi-crystals
104. 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
105. Chapter 98. Influence of the Quenching Conditions on the Formation of the Icosahedral Phase in Al–Mn Alloys
106. Chapter 99. Hydrogen in Amorphous and Nanocrystalline Metals
107. Chapter 100. Thermodynamics of Η in Amorphous Alloys: A Lattice-gas Model
108. Chapter 101. Solid-state Reaction and Electrocatalytic Activity of Rapidly Quenched Zr50Co3oNi20 Alloys
109. Chapter 102. Chemical Properties and Applications of Some Amorphous Alloys
110. Chapter 103. Corrosion Resistance and Passive Layer Formation in Amorphous Binary Cr Alloys
111. Chapter 104. Laser and Electron Beam Processing of Electrodes Consisting of Amorphous Nickel–Valve Metal–Platinum-group Metal Surface Alloys on Valve Metals
112. Chapter 105. Improved Corrosion Resistance of Rapidly Solidified Fe–Al Bronzes
113. Chapter 106. The Oxidation Behavior of Amorphous and Polycrystalline Zr–Ni Alloys
114. Chapter 107. Investigation of the Microstructure of an Fe91Zr9 Catalyst Prepared from the Amorphous Alloy
115. Chapter 108. Corrosion Behavior of Rapidly Solidified Mg – Nd and Mg – Y Alloys
116. Chapter 109. Segregation and Structural Effects of Boron in Rapidly Solidified Copper–Boron Alloys
117. Chapter 110. Electrochemical Behaviour of Cu–Ti Glassy Alloys
118. Chapter 111. Amorphous Alloy Catalysts for Electro-oxidation of Methanol and its Derivatives in a Sulphuric Acid Solution
119. Chapter 112. Electrochemistry of Chromium-base Binary Metallic Glasses
120. 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
121. Chapter 114. The Oxidation Behaviour of Some Cobalt-based Amorphous Alloys
122. Chapter 115. Hydrogen in Some Pd–Si-based Amorphous Alloys and in the Crystallized States
123. Chapter 116. Properties of As-quenched and Hydrogenated Cu–Fe–Ti Alloys
124. Chapter 117. Decomposition of Formic Acid on Fe80B20 Metallic Glasses
125. Chapter 118. Simulation of the Influence of Hydrogen on the Structural Properties of Amorphous Iron
126. Author Index
127. Cumulative Subject Index Vols. 97–99