Rapidly Quenched Metals
eBook - ePub

Rapidly Quenched Metals

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eBook - ePub

Rapidly Quenched Metals

About this book

Rapidly Quenched Metals, Volume I covers the proceedings of the Fifth International Conference on Rapidly Quenched Metals, held in Wurzburg, Germany on September 3-7, 1984. The book focuses on amorphous and crystalline metals formed by rapid quenching from the melt. The selection first covers the scope and trends of developments in rapid solidification technology, rapid solidification, and undercooling of liquid metals by rapid quenching. Discussions focus on experimental method, powders, strip, particulate production, consolidation, and alloys and alloy systems. The text then examines the solidification of undercooled liquid alloys entrapped in solid; crystallization kinetics in undercooled droplets; and grain refinement in bulk undercooled alloys. The manuscript tackles the undercooling of niobium-germanium alloys in a 100 meter drop tube; influence of process parameters on the cooling rate of the meltspinning process; and the mechanism of ribbon formation in melt-spun copper and copper-zirconium. The formation and structure of thick sections of rapidly-solidified material by incremental deposition and production of ultrafine dispersions of rare earth oxides in Ti alloys using rapid solidification are also mentioned. The selection is a valuable reference for physicists, chemists, physical metallurgists, and engineers.

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Yes, you can access Rapidly Quenched Metals by S Steeb in PDF and/or ePUB format, as well as other popular books in Tecnologia e ingegneria & Scienza dei materiali. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Cover image
  2. Title page
  3. Table of Contents
  4. Copyright
  5. PREFACE
  6. FIFTH INTERNATIONAL CONFERENCE ON RAPIDLY QUENCHED METALS
  7. ORGANIZING COMMITTEE
  8. Cover
  9. IN MEMORIAM
  10. TABLE OF CONTENTS FOR VOLUME II
  11. Chapter 1: INTRODUCTION
  12. Chapter 2: INTRODUCTORY REMARKS
  13. Chapter 3: HISTORICAL REMARKS AND HONOURS
  14. Chapter 4: THE EARLY DAYS OF QUENCH CONDENSED AMORPHOUS FILMS
  15. Chapter 5: OPENING LECTURE
  16. Chapter 6: THE SCOPE AND TRENDS OF DEVELOPMENTS IN RAPID SOLIDIFICATION TECHNOLOGY
  17. Chapter 7: RAPID SOLIDIFICATION PROCESS
  18. Chapter 8: RAPID SOLIDIFICATION - Process Technology for new Materials and Products -
  19. Chapter 9: UNDERCOOLING OF LIQUID METALS BY RAPID QUENCHING
  20. Chapter 10: SOLIDIFICATION OF UNDERCOOLED LIQUID ALLOYS ENTRAPPED IN SOLID – A STRUCTURAL INVESTIGATION
  21. Chapter 11: CRYSTALLIZATION KINETICS IN UNDERCOOLED DROPLETS
  22. Chapter 12: SOLIDIFICATION STRUCTURES DEVELOPED IN UNDERCOOLED Al-Si AND Pb-Sb ALLOYS
  23. Chapter 13: GRAIN REFINEMENT IN BULK UNDERCOOLED ALLOYS
  24. Chapter 14: FORMATION OF A HIGH PRESSURE PHASE IN In-Bi ALLOYS SOLIDIFIED FROM HIGHLY UNDERCOOLED LIQUID AT ATMOSPHERIC PRESSURE
  25. Chapter 15: UNDERCOOLING OF NIOBIUM-GERMANIUM ALLOYS IN A 100 METER DROP TUBE
  26. Chapter 16: THE INFLUENCE OF PROCESS PARAMETERS ON THE COOLING RATE OF THE MELTSPINNING PROCESS
  27. Chapter 17: THE MECHANISM OF RIBBON FORMATION IN MELT-SPUN COPPER AND COPPER-ZIRCONIUM
  28. Chapter 18: RIBBON FORMATION OF ROLLER CAST Al-Cu
  29. Chapter 19: THERMAL HISTORY CALCULATIONS FOR CONTINUOUS CASTING OF METALLIC GLASS TAPES
  30. Chapter 20: SURFACE QUALITY AND THICKNESS EFFECTS OF AMORPHOUS RIBBONS FOR RECORDING HEAD APPLICATIONS
  31. Chapter 21: ANALYSIS OF CASTING CONDITIONS OF AMORPHOUS RIBBONS
  32. Chapter 22: THE PROCESS PARAMETERS AND THE PROPERTIES OF Fe40Ni40B13Si7 RIBBONS
  33. Chapter 23: ANALYSIS OF THE SOLIDIFICATION PROCESS IN THE ROLLER QUENCHING METHOD
  34. Chapter 24: COMPARISON OF THE SINGLE ROLLER AND DOUBLE ROLLER PROCESSES FOR CASTING LOW CARBON STEEL
  35. Chapter 25: SOLIDIFICATION MECHANISMS IN AMORPHOUS AND CRYSTALLINE RIBBON CASTING
  36. Chapter 26: ON THE POSSIBILITIES OF MAKING MULTIPLE LAYER RIBBONS BY SINGLE ROLLER MELT SPINNING
  37. Chapter 27: PROPERTIES OF Fe-C-Si, Cu-Al, Al-Si ALLOY WIRES PRODUCED BY IN-ROTATING-WATER-SPINNING PROCESS
  38. Chapter 28: PILOT SCALE ARC MELT SPINNING FOR TI RICH ALLOYS
  39. Chapter 29: FORMATION OF METALLIC AND METALLIC-GLASS HOLLOW SPHERES AND THEIR SOLIDIFICATION CHARACTERISTICS
  40. Chapter 30: VITRIFICATION OF Fe-Cr-Mo-P-C ALLOYS ON ENTIRE SURFACES BY LASER TREATMENT
  41. Chapter 31: PREPARATION AND PHYSICAL PROPERTIES OF Fe-W AND Co-W AMORPHOUS ALLOYS BY ELECTROPLATING METHOD
  42. Chapter 32: PREPARATION FOR Ni-S AMORPHOUS ALLOY BY ELECTROPLATING METHOD
  43. Chapter 33: FORMATION AND STRUCTURE OF THICK SECTIONS OF RAPIDLY-SOLIDIFIED MATERIAL BY INCREMENTAL DEPOSITION
  44. Chapter 34: COMPOSITE STRUCTURE AND PROPERTIES OF MAGNETIC AMORPHOUS ALLOYS DISPERSED WITH OXIDE AND CARBIDE PARTICLES
  45. Chapter 35: SURFACE-SMOOTHING AND DENSIFICATION OF SPRAY-QUENCHED AMORPHOUS ALLOY SHEETS BY WARM-ROLLING
  46. Chapter 36: GLASS-FORMING ABILITY AND CRYSTALLIZATION
  47. Chapter 37: METALLIC GLASS FORMING ABILITY
  48. Chapter 38: FORMATION, THERMAL STABILITY AND MAGNETIC PROPERTIES OF AMORPHOUS Ni-BASE ALLOYS
  49. Chapter 39: RELATIONSHIPS BETWEEN THE GLASS-FORMING ABILITY (GFA) AND SEVERAL METALLURGICAL PARAMETERS: Tl, Tg, To, Tn, T and tG
  50. Chapter 40: ON COMPLEX FORMATION IN MOLTEN ALLOYS AND ITS ROLE IN GLASS FORMATION
  51. Chapter 41: GLASS-FORMING ABILITY IN BINARY AND TERNARY SYSTEMS CONTAINING PALLADIUM
  52. Chapter 42: A THEORETICAL STUDY OF THE TRANSITION FROM CRYSTALLINE TO AMORPHOUS STRUCTURE IN ALLOYS PRODUCED BY THE MELT SPINNING PROCESS
  53. Chapter 43: PREDICTION OF GLASS FORMING RANGE IN TERNARY ALLOYS FROM THE CONSTITUENT BINARY SYSTEMS
  54. Chapter 44: PATTERN RECOGNITION APPLIED TO THE FORMABILITY CRITERIA OF METALLIC GLASSES
  55. Chapter 45: THE CHEMICAL TWINNING MODEL AS A POSSIBLE GUIDE TO THE CHOICE OF NEW GLASS FORMING COMPOSITIONS
  56. Chapter 46: GLASS FORMING ABILITY STUDIES IN THE COPPER-TITANIUM SYSTEM
  57. Chapter 47: CRYSTAL STRUCTURES COMPETING WITH GLASS FORMATION IN CU-TI AND CU-TI-ZR ALLOYS
  58. Chapter 48: MODELING OF THE NUCLEATION TEMPERATURE FOR ALLOYS IN THE CU-TI SYSTEM UNDER LASER IRRADIATION CONDITIONS
  59. Chapter 49: CRYSTALLIZATION KINETICS IN METALLIC GLASSES
  60. Chapter 50: NUCLEATION, GROWTH AND TRANSFORMATION OF CRYSTALS IN AN ANNEALED HIGH DENSITY, SINGLE-COMPONENT GLASSY SYSTEM
  61. Chapter 51: INTERPRETATION OF EXPERIMENTAL MEASUREMENTS OF TRANSIENT NUCLEATION
  62. Chapter 52: CRYSTALLIZATION STATISTICS IN METAL-METALLOID GLASSES
  63. Chapter 53: SOLID-UNDERCOOLED LIQUID INTERFACIAL ENERGY OF Pd-Cu-Si ALLOY GLASS
  64. Chapter 54: CRYSTALLIZATION OF RAPIDLY HEATED METALLIC GLASSES
  65. Chapter 55: EFFECT OF QUENCHING RATE ON THE GLASS TRANSITION AND CRYSTALLIZATION TEMPERATURES OF Fe-B BASED METALLIC GLASSES
  66. Chapter 56: INFLUENCE OF COLD ROLLING ON THE INTERNAL FRICTION DURING CRYSTALLIZATION OF SOME METAL-METALLOID GLASSES
  67. Chapter 57: SURFACE CRYSTALLIZATION
  68. Chapter 58: PHOTOSTIMULATED EXOELECTRON EMISSION ACCOMPANYING THE STRUCTURAL TRANSFORMATIONS OF METALLIC GLASSES
  69. Chapter 59: SOME COMMENTS ON METALLIC GLASSES
  70. Chapter 60: CRYSTALLIZATION OF SPUTTERED IRON-CARBON AMORPHOUS ALLOYS WITH CARBON CONTENTS IN THE RANGE 18–50 at. %
  71. Chapter 61: A STRUCTURAL STUDY OF LIQUID-QUENCHED Fe-B ALLOYS BY MOSSBAUER SPECTROSCOPY AND HIGH RESOLUTION ELECTRON MICROSCOPY
  72. Chapter 62: LOCATION OF CRYSTALLIZATION IN Fe80B20 METALLIC GLASS BY CEMS
  73. Chapter 63: THE STUDY OF MECHANISM AND KINETICS OF CRYSTALLIZATION OF Fe86B14 METALLIC GLASS
  74. Chapter 64: CRYSTALLIZATION KINETICS STUDIED BY EDXD AND MÖSSBAUER SPECTROSCOPY
  75. Chapter 65: WHY ISOTHERMAL LONG-TERM ANNEALINGS (104 h) AVOID PITFALLS AS WITH DTA/DSC-RUNS FOR THERMAL STABILITY ASSESSMENTS – APPLICATION TO METGLASSES(R) 2826 AND 2826A
  76. Chapter 66: CRYSTALLIZATION KINETICS OF Fe40Ni40P14B6 GLASSY ALLOY UNDER ISOTHERMAL AND NONISOTHERMAL CONDITIONS
  77. Chapter 67: FREE ENERGY CHANGES ON CRYSTALLIZATION OF AMORPHOUS (Fel-xNix)80Pl4B6 ALLOYS
  78. Chapter 68: INFLUENCE OF ALUMINIUM ON THE CRYSTALLISATION OF FE-NI-B GLASSES
  79. Chapter 69: ANNEALING AND CRYSTALLIZATION BEHAVIOUR OF Fe67Cc18B14Si1
  80. Chapter 70: IN SITU CRYSTALLIZATION OBSERVATION IN IRON – RARE EARTH – BORON GLASSY ALLOYS
  81. Chapter 71: TRANSFORMATION BEHAVIOR OF FeSiB METALLIC GLASSES BY SMALL ANGLE X-RAY SCATTERING
  82. Chapter 72: ACTIVATION ENERGY FOR CRYSTALLIZATION OF AMORPHOUS Fe83Si5B12 ALLOY
  83. Chapter 73: ENTHALPIC AND STRUCTURAL ANALYSIS OF CRYSTALLIZATION IN Fe-B-C AND Fe-Si-B-C METALLIC GLASSES
  84. Chapter 74: A COMPARATIVE STUDY OF INITIAL STAGE CRYSTALLIZATION STRUCTURES AND MORPHOLOGIES FOR SOME IRON AND NICKEL BASED GLASSY ALLOYS
  85. Chapter 75: STRUCTURAL EVOLUTION OF A Fe-B-Si-C METALLIC GLASS
  86. Chapter 76: INVESTIGATION OF CRYSTALLIZATION AND THERMAL STABILITY OF Fe78B22-xSix METALLIC GLASSES
  87. Chapter 77: EFFECT OF THE COMPOSITION ON PROPERTIES OF Fe Cr P C AMORPHOUS ALLOYS
  88. Chapter 78: CRYSTALLIZATION OF AMORPHOUS Cu-Ti ALLOYS
  89. Chapter 79: THERMAL STABILITY OF Cu-Zr-M GLASSES AS A FUNCTION OF AN AVERAGE ATOMIZATION ENTHALPY
  90. Chapter 80: EXPERIMENTAL AND THEORETICAL STUDY OF THE CRYSTALLIZATION ENTHALPIES IN AMORPHOUS Zr-Ni ALLOYS
  91. Chapter 81: GLASS FORMING ABILITY AND AMORPHOUS TO CRYSTALLINE TRANSITIONS IN Zr-Ni ALLOYS
  92. Chapter 82: CRYSTALLIZATION OF Ni60Hf40 AMORPHOUS ALLOY
  93. Chapter 83: THERMAL STABILITY OF Fe-Zr-B GLASSES
  94. Chapter 84: KINETICS AND MECHANISMS OF CRYSTALLIZATION OF AMORPHOUS Co-Gd
  95. Chapter 85: FORMATION AND CRYSTALLIZATION OF Cr-C SPUTTERED AMORPHOUS ALLOYS
  96. Chapter 86: CRYSTALLIZATION OF SELECTED AREAS AND THEIR DOMAIN IMAGE IN AMORPHOUS Mn-Ga THIN FILMS
  97. Chapter 87: THE VITREOUS TRANSFORMATION AND CRYSTALLIZATION PROCESS OF AMORPHOUS SELENIUM
  98. Chapter 88: DOUBLE GLASS TRANSITION PHENOMENA AND FRACTIONAL CRYSTALLIZATION IN Ge20Te80- and AL23Te77-GLASSES
  99. Chapter 89: CRYSTALLIZATION OF AMORPHOUS Ni78B14Si8
  100. Chapter 90: EFFECT OF THE TRANSITION METAL ADMIXTURE ON THE THERMAL STABILITY OF Ni73TM5Si10B12 METALLIC GLASSES
  101. Chapter 91: INVESTIGATIONS OF THE CRYSTALLIZATION OF ELECTRODEPOSITED NiP-ALLOYS BY IN SITU ELECTRON DIFFRACTION
  102. Chapter 92: AMORPHOUS-CRYSTALLINE TRANSITION IN Ni-P-B METALLIC GLASSES
  103. Chapter 93: CRYSTALLIZATION BEHAVIOR OF A Ni-Pd BASED GLASSY ALLOY
  104. Chapter 94: STUDY OF THE CRYSTALLIZATION KINETICS OF Pd (.83-x) XxSi .17 (X=Fe, Co and Ni; x = .05,.10 and .15) METALLIC GLASSES
  105. Chapter 95: STRUCTURE
  106. Chapter 96: DIRECT METHODS FOR THE DETERMINATION OF ATOMIC SHORT-RANGE ORDER IN AMORPHOUS SOLIDS
  107. Chapter 97: IS THE LOCAL STRUCTURE OF AMORPHOUS ALLOYS A CONSEQUENCE OF MEDIUM-RANGE ORDER?
  108. Chapter 98: ORDER AND DISORDER IN METALLIC GLASSES
  109. Chapter 99: EXAFS AND XANES STUDIES OF METALLIC GLASSES
  110. Chapter 100: STRUCTURAL INVESTIGATION OF Fe75Si10B15 METALLIC GLASS WIRE
  111. Chapter 101: A DIFFRACTION STUDY OF BORON AND PHOSPHORUS IN THE Fe40Ni40B20-xPx FAMILY
  112. Chapter 102: STRUCTURE OF AMORPHOUS (Zr,Hf)-Fe ALLOYS
  113. Chapter 103: MICROSTRUCTURES OF AMORPHOUS AND MICROCRYSTALLINE ELECTRODEPOSITED Co-P, Ni-P AND Fe-P
  114. Chapter 104: THE INFLUENCE OF MELT TEMPERATURE AND QUENCH RATE ON NI-ZR METALLIC GLASSES
  115. Chapter 105: NON-UNIFORM STRUCTURES IN MELT-SPUN IRON-BASED GLASSES
  116. Chapter 106: EFFECT OF TERNARY ADDITIONS ON Cu-Zr GLASSES AROUND THE COMPOSITION Cu60Zr40 : STILL AN IDEAL SOLID SOLUTION?
  117. Chapter 107: ATOMIC STRUCTURE OF THE METALLIC GLASS Ni80P20
  118. Chapter 108: A DEEPER LOOK INTO THE STRUCTURE OF AMORPHOUS Fe40Ni4011B20
  119. Chapter 109: SHORT RANGE STRUCTURE OF Ni-Fe-B METALLIC GLASS BY NEUTRON DIFFRACTION
  120. Chapter 110: DYNAMIC STRUCTURE FACTOR OF THE METALLIC GLASS Ni24Zr76
  121. Chapter 111: PARTIAL STRUCTURE FUNCTIONS OF NiZr ALLOY GLASS DETERMINED BY AN ISOTOPE-SUBSTITUTION NEUTRON DIFFRACTION METHOD
  122. Chapter 112: COMPOSITIONAL VARIATIONS IN THE SHORT-RANGE STRUCTURE OF Ni1-xBx (x = 0.18 − 0.40) ALLOY GLASSES
  123. Chapter 113: STRUCTURAL STUDY OF AN AMORPHOUS Ni36Zr64 ALLOY
  124. Chapter 114: STRUCTURE STUDY OF AMORPHOUS Fe-B AND Ni-Fe-B
  125. Chapter 115: THE STRUCTURE OF Be37.5Ti62.5 METALLIC GLASS
  126. Chapter 116: MAGNETIC AND NUCLEAR SMALL-ANGLE SCATTERING OF NEUTRONS IN METALLIC GLASSES
  127. Chapter 117: VIBRATIONAL SPECTRA OF a-Fe.78P.22 BY INELASTIC NEUTRON SCATTERING
  128. Chapter 118: SPUTTERED LAYERS OF Fe-RICH AND B-RICH Fe1-xBx INVESTIGATED WITH AN IMAGING ATOM PROBE
  129. Chapter 119: CRYSTALLINE-LIKE SHORT RANGE ORDER IN ‘AMORPHOUS’ ALLOYS
  130. Chapter 120: DISTRIBUTION OF METAL-METAL NEIGHBOURS IN METALLIC GLASS USING FIELD ION MICROSCOPY
  131. Chapter 121: EXAFS STUDIES OF DILUTE SOLID SOLUTIONS
  132. Chapter 122: SHORT-RANGE ORDER IN Ni33Y67 AND Cu33Y67 AMORPHOUS RIBBONS
  133. Chapter 123: STRUCTURAL CHARACTERIZATION AND ELECTROCHEMICAL BEHAVIOUR OF THE 2605CO METGLASS
  134. Chapter 124: POSITRON ANNIHILATION AND MÖSSBAUER STUDIES OF ZrxFe1-x AMORPHOUS AND CRYSTALLINE ALLOYS
  135. Chapter 125: IMPROVED EVALUATION OF THE LOCAL ORDER IN AMORPHOUS FeZr3 FROM MAGNETICALLY PERTURBED 57Fe MÖSSBAUER SPECTROSCOPY
  136. Chapter 126: INFLUENCE OF SHORT RANGE ORDER ON PROPERTIES OF Fe-Co-B GLASSES
  137. Chapter 127: MÖSSBAUER SPECTROSCOPY ON AMORPHOUS FexZr100-x (20<×<90) ALLOYS
  138. Chapter 128: CORRELATIONS BETWEEN HYPERFINE PARAMETERS IN Fe-B METALLIC GLASSES
  139. Chapter 129: STRUCTURAL INVESTIGATIONS IN THE AMORPHOUS IRON-BORON SYSTEM
  140. Chapter 130: THE DISTRIBUTION OF MAGNETIC HYPERFINE FIELDS IN IRON-BASED METALLIC GLASSES CONTAINING CHROMIUM
  141. Chapter 131: C.S.R.O. AND POTENTIAL ENERGIES IN TRANSITION METAL ALLOYS
  142. Chapter 132: SHORT RANGE ORDER IN RELAXED AND UNRELAXED MODELS OF BINARY AMORPHOUS ALLOYS
  143. Chapter 133: A MODEL FOR METALLIC GLASSES GENERATED BY CHEMICAL TWINNING
  144. Chapter 134: SIMPLE IDEAS ON STRUCTURE OF AMORPHOUS MATERIALS
  145. Chapter 135: TEMPERATURE DEPENDENCE OF THE LOCAL STRUCTURE IN TRANSITION FROM LIQUID TO GLASS: A MOLECULAR DYNAMICS STUDY
  146. Chapter 136: CHEMICAL ORDERING IN CONCENTRATED BINARY AMORPHOUS METALS
  147. Chapter 137: A THEORY OF MEDIUM RANGE ORDER IN SUPERCOOLED LIQUID AND AMORPHOUS SOLID METALS
  148. Chapter 138: STRUCTURE AND LOCAL ANISOTROPY OF AMORPHOUS Tb-Fe ALLOYS
  149. Chapter 139: STRUCTURE RELAXATION
  150. Chapter 140: DIFFUSION IN AMORPHOUS ALLOYS
  151. Chapter 141: THE ROLE OF TWO-LEVEL SYSTEMS IN AMORPHOUS ALLOYS
  152. Chapter 142: LEVEL SYSTEMS AND KINETIC PROCESSES IN AMORPHOUS SOLIDS
  153. Chapter 143: DISTRIBUTED FICTIVE TEMPERATURES AND THE KINETICS OF STRUCTURAL RELAXATION
  154. Chapter 144: THE RELAXATION BEHAVIOUR OF NICKEL-RICH METAL-METALLOID GLASSES
  155. Chapter 145: ON STRUCTURES IN THE AMORPHOUS STATE IN THE Fe-Ni-B SYSTEM
  156. Chapter 146: INVESTIGATIONS OF THE RELAXATION BEHAVIOR OF AMORPHOUS Fe-Ni-B ALLOYS
  157. Chapter 147: MICROCALORIMETRIC INVESTIGATIONS OF STRUCTURAL RELAXATION PHENOMENA IN GLASSY Fe-Ni-B ALLOYS
  158. Chapter 148: CALORIMETRIC INVESTIGATION OF ISOTHERMAL REVERSIBLE RELAXATION PROCESSES IN Fe40Ni40B20 GLASS
  159. Chapter 149: CALORIMETRIC AND RESISTOMETRIC STUDIES OF STRUCTURAL RELAXATION KINETICS IN Fe40Ni40P20 and Fe40Ni40B20
  160. Chapter 150: THE INFLUENCE OF STRUCTURAL RELAXATION ON THE CURIE-TEMPERATURE OF AMORPHOUS FeMnBSi
  161. Chapter 151: CROSSOVER EFFECT IN METALLIC GLASSES
  162. Chapter 152: KINETICS OF SHORT-RANGE ORDERING IN METALLIC GLASSES : ANALYSIS OF THE CROSSOVER EFFECT
  163. Chapter 153: KINETICS OF ENTHALPY RELAXATION IN METALLIC GLASSES
  164. Chapter 154: THERMOPHYSICAL INVESTIGATION OF RELAXATION OF Pd82 Si18 AND Fe85B15 GLASSES
  165. Chapter 155: COMPARISON OF THE STRUCTURAL RELAXATION AND GLASS TRANSITION IN BOTH LIQUID-QUENCHED AND SPUTTERED COPPER-ZIRCONIUM AMORPHOUS ALLOYS. A STUDY BY DSC AND X-RAY SCATTERING
  166. Chapter 156: STRUCTURAL RELAXATION IN SPUTTERED Zr-Cu ALLOYS STUDIED BY LOW-TEMPERATURE THERMAL CONDUCTIVITY AND X-RAY SCATTERING
  167. Chapter 157: KINETICS OF THE REVERSIBLE RELAXATION PHENOMENA IN METALLIC GLASSES
  168. Chapter 158: ACTIVATION ENERGY SPECTRA FOR STRUCTURAL POLARIZATION
  169. Chapter 159: IRREVERSIBLE RELAXATION OF THE PERMEABILITY AFTEREFFECT IN AMORPHOUS FERROMAGNETS DURING ISOTHERMAL ANNEALING TREATMENTS
  170. Chapter 160: ANNEALING BEHAVIOUR OF AMORPHOUS Fe81.5 B13.5 Si4 C1
  171. Chapter 161: MEASUREMENTS OF STRUCTURAL RELAXATION IN AMORPHOUS Pd82 Si18: X-RAY DIFFRACTION AND ELECTRICAL RESISTIVITY
  172. Chapter 162: RELAXATION AND RESISTIVITY CHANGES IN METALLIC GLASSES
  173. Chapter 163: RADIATION DAMAGE AND ENHANCED SHORT RANGE ORDERING IN AMORPHOUS Cu50Ti50
  174. Chapter 164: CHEMICAL SHORT RANGE ORDER IN AMORPHOUS Fe40 Ni38 Mo4 B18 (METGLAS 2826MB)
  175. Chapter 165: KINETICS OF STRUCTURAL RELAXATION AND CRYSTALLIZATION OF AMORPHOUS Fe80P13C7 ALLOY
  176. Chapter 166: ELECTRICAL RESISTANCE AND STRUCTURAL RELAXATION OF AMORPHOUS AND MICROCRYSTALLINE Co1-xPx ALLOYS
  177. Chapter 167: STRUCTURAL RELAXATION AND CRYSTALLIZATION IN SUPERCONDUCTING, AMORPHOUS Zr-Ni ALLOYS
  178. Chapter 168: THE TEMPERATURE DEPENDENCE OF RESISTIVITY IN AMORPHOUS Cu-Zr ALLOYS AT ELEVATED TEMPERATURES
  179. Chapter 169: MECHANICAL RELAXATION IN METAL GLASSES
  180. Chapter 170: INTERNAL FRICTION IN AMORPHOUS Pd77.5Cu6Si16.5
  181. Chapter 171: THE EFFECT OF COOLING CONDITIONS ON THE INTERNAL FRICTION OF A MULTICOMPONENT METALLIC GLASS
  182. Chapter 172: STRUCTURAL RELAXATION AND ELASTIC PROPERTIES OF ELECTRODEPOSITED AMORPHOUS Ni-P ALLOYS
  183. Chapter 173: STRUCTURAL RELAXATION OF Cu67Ti33 MONITORED BY ELASTIC MODULUS
  184. Chapter 174: RELAXATION OF ELASTIC MODULUS AFTER COLD-ROLLING
  185. Chapter 175: THERMAL STABILITY OF Ni-Zr METALLIC GLASSES
  186. Chapter 176: INFLUENCE OF ANNEALING ON THE DENSITY AND ON THE MICROHARDNESS OF AMORPHOUS Fe81B13,5Si3,5C2
  187. Chapter 177: A RE-EVALUATION OF PHASE SEPARATION IN Ti-Zr-Be METALLIC GLASSES
  188. Chapter 178: DIFFUSION OF 59Fe AND 32P IN AMORPHOUS Fe40Ni40B20
  189. Chapter 179: SELF-DIFFUSION OF RADIOACTIVE 59Fe TRACER ATOMS IN AMORPHOUS Fe41Ni41B18
  190. Chapter 180: PHASE SEPARATION AND LOSS OF DUCTILITY IN AMORPHOUS Ti50Be40Zr10 AND Ni61Nb39
  191. Chapter 181: THE STUDY OF STRUCTURAL CHANGES IN Ti-BASED METALLIC GLASSES
  192. Chapter 182: EFFECT OF AGING ON DISTRIBUTED SHEAR RELAXATIONS, HARDNESS AND EMBRITTLEMENT IN Cu59Zr41 AND Fe80-B20 GLASSES
  193. Chapter 183: DIFFUSION OF Si AND B IN FeB-, CoB-GLASSES
  194. Chapter 184: MÖSSBAUER SPECTROSCOPY AND COMPLEMENTARY STUDIES OF n-IRRADIATED AND ANNEALED AMORPHOUS Fe40Ni4010B20
  195. Chapter 185: PHASES AND MICROSTRUCTURES
  196. Chapter 186: PHASE-STRUCTURE AND MICRO-STRUCTURE OF RAPIDLY QUENCHED ALLOYS
  197. Chapter 187: UNIVERSAL BEHAVIOUR OF BINARY AMORPHOUS ALLOYS CONTAINING NOBLE METALS AND SIMPLE METALS AND THEIR DESCRIPTION IN THE FRAME OF A NEW HUME-ROTHERY PHASE
  198. Chapter 188: SOME FUNDAMENTAL ASPECTS OF SOLIDIFICATION IN A SUPERCOOLED MELT
  199. Chapter 189: INTERFACE MORPHOLOGY DURING RAPID SOLIDIFICATION
  200. Chapter 190: CELLULAR SOLIDIFICATION IN NI BASED MELT SPUN ALLOYS
  201. Chapter 191: RELATIONSHIPS BETWEEN MICROSTRUCTURE AND PROCESSING IN MELT SPUN AL-FE ALLOYS
  202. Chapter 192: EFFECT OF PROCESS CONDITIONS DURING MELTSPINNING ON SOLIDIFICATION MORPHOLOGY OF ALUMINIUM ALLOYS
  203. Chapter 193: RELATION BETWEEN SOLIDIFICATION MORPHOLOGY AND TEXTURE OF MELT-SPUN Al AND Al-ALLOYS
  204. Chapter 194: COMPARISON OF STRUCTURES PRODUCED BY ION IMPLANTATION AND RAPID SOLIDIFICATION
  205. Chapter 195: LATTICE DEFECTS IN SOME RAPID QUENCHED FACE CENTERED CUBIC METALS
  206. Chapter 196: MARTENSITE TRANSFORMATION IN MELT SPUN CO-Ni ALLOYS
  207. Chapter 197: MICROSTRUCTURE MODIFICATION AND PROPERTIES OF RAPIDLY SOLIDIFIED AUSTENITIC MANGANESE STEELS CONTAINING MO
  208. Chapter 198: AS-QUENCHED MICROSTRUCTURES IN Fe – 25Cr – 20Ni BASED MELT SPUN AND SPUTTERED ALLOYS
  209. Chapter 199: MICROSTRUCTURE OF RAPIDLY QUENCHED TYPE 308 STAINLESS STEEL WELD FILLER METAL AND ITS IMPLICATIONS ON RAPID SOLIDIFICATION PROCESSES
  210. Chapter 200: RAPID SOLIDIFICATION OF SURFACE LAYERS ON ALLOY STEELS MELTED BY CW LASER
  211. Chapter 201: STRUCTURE OF RAPIDLY SOLIDIFIED HIGH SPEED TOOL STEELS
  212. Chapter 202: METASTABLE CRYSTALLINE AND AMORPHOUS Fe ALLOYS PRODUCED BY VAPOR QUENCHING
  213. Chapter 203: AGING BEHAVIOUR OF RAPIDLY QUENCHED INCONEL 713C ALLOY USING TWIN-ROLL TECHNIQUE
  214. Chapter 204: PHASE FORMATION DURING AGING OF A RAPIDLY QUENCHED NICKEL-BASE SUPERALLOY
  215. Chapter 205: THE EFFECT OF RAPID SOLIDIFICATION VELOCITY ON MICROSTRUCTURE AND PHASE SOLUBILITY EXTENSION IN NiAl-Cr QUASIBINARY EUTECTIC
  216. Chapter 206: MICROSTRUCTURE OF DIFFERENT STRUCTURAL TRANSFORMATIONS IN Co-10 wt% TaC INDUCED BY RAPID QUENCHING
  217. Chapter 207: PHASE TRANSFORMATIONS IN METASTABLE Nb-ALLOYS
  218. Chapter 208: MICROSTRUCTURE AND MECHANICAL PROPERTIES OF RAPIDLY SOLIDIFIED COPPER-BASED ALLOYS
  219. Chapter 209: CELLULAR MICROSEGREGATION IN RAPIDLY SOLIDIFIED Ag-15 wt% Cu ALLOYS
  220. Chapter 210: METHOD FOR THE DETERMINATION OF HELIUM SOLUBILITY IN METALLIC GLASSES AND THEIR MELTS
  221. Chapter 211: RADIATION-INDUCED GROWTH OF METALLIC GLASSES
  222. Chapter 212: EXCESS VACANCIES IN RAPIDLY QUENCHED ALUMINIUM ALLOYS
  223. Chapter 213: THE PRODUCTION OF SEGREGATION-FREE ALUMINIUM POWDER BY ULTRASONIC GAS ATOMIZATION
  224. Chapter 214: PHASE DECOMPOSITION PROCESS OF A RAPIDLY SOLIDIFIED Al-3 wt% Hf-0.3 wt% Si ALLOY DURING AGING
  225. Chapter 215: MICROSTRUCTURES OF RAPIDLY SOLIDIFIED Al-Ti ALLOYS CONTAINING TITANIUM UP TO 40% AND ITS THERMAL STABILITY
  226. Chapter 216: MICROSTRUCTURES AND PROPERTIES OF A RAPIDLY SOLIDIFIED ALUMINUM-GADOLINIUM ALLOY
  227. Chapter 217: RAPIDLY SOLIFIFIED TERNARY Al-Mn-Cr ALLOYS
  228. Chapter 218: AGEING BEHAVIOUR OF ALUMINIUM-RICH Al-Cr-Zr ALLOY SOLID SOLUTIONS EXTENDED BY RAPID SOLIDIFICATION
  229. Chapter 219: HEAT TREATMENT AND DEFORMATION OF A MELT SPUN ALUMINIUM ALLOY
  230. Chapter 220: LATTICE IMAGING ANALYSIS AND MÖSSBAUER SPECTROSCOPY OF LIQUID-QUENCHED Al-Fe ALLOY
  231. Chapter 221: STRUCTURE AND MECHANICAL PROPERTIES OF ALUMINIUM ALLOYS RAPIDLY SOLIDIFIED BY ELECTRON BEAM SURFACE TREATMENT
  232. Chapter 222: MICROSTRUCTURE OF SOME RAPIDLY SOLIDIFIED Al-BASE ALLOYS
  233. Chapter 223: RAPIDLY SOLIDIFIED MICROSTRUCTURES AND PRECIPITATION IN A Ti-5.5w/o Ni ALLOY
  234. Chapter 224: SECOND PHASE COARSENING IN RAPIDLY SOLIDIFIED Ti-5Sn-4.5La SYSTEM
  235. Chapter 225: THE PRODUCTION OF ULTRAFINE DISPERSIONS OF RARE EARTH OXIDES IN Ti ALLOYS USING RAPID SOLIDIFICATION
  236. Chapter 226: STRUCTURE, MECHANICAL AND ELECTRICAL PROPERTIES OF RAPIDLY QUENCHED ALUMINIUM-SILICON ALLOYS
  237. Chapter 227: ELECTRONIC PROPERTIES
  238. Chapter 228: ELECTRONIC STATES IN GLASSY METALS
  239. Chapter 229: ELECTRONIC STRUCTURE STUDIES ON TRANSITION METAL GLASSES CONTAINING HAFNIUM AND YTTRIUM
  240. Chapter 230: SYSTEMATIC STUDIES OF ELECTRON TRANSPORT PROPERTIES OF METALLIC GLASSES
  241. Chapter 231: ELECTRONIC TRANSPORT IN STRONGLY SCATTERING DISORDERED METALS
  242. Chapter 232: ELECTRONIC STATES AND CONDUCTIVITY OF AMORPHOUS METALS
  243. Chapter 233: ELECTRONIC DENSITY OF STATES FOR AMORPHOUS ALLOYS OF TITANIUM-COPPER
  244. Chapter 234: THEORY OF ELECTRONIC TRANSPORT IN DISORDERED METALS: THE INFLUENCE OF INCOHERENT ATOMIC MOTIONS
  245. Chapter 235: THE ELECTRONIC STRUCTURE OF Ni-P AND Pd-Ni-P GLASSES
  246. Chapter 236: ELECTRONIC STRUCTURE OF SPUTTERED AMORPHOUS COPPER-YTTRIUM ALLOYS AS DEDUCED BY OPTICAL AND ELECTRON SPECTROSCOPY
  247. Chapter 237: THE INFLUENCE OF THE NOBLE-METAL CONTENT ON THE STRUCTURE-INDUCED MINIMUM OF THE DENSITY OF STATES AT THE FERMI ENERGY IN AMORPHOUS ALLOYS
  248. Chapter 238: THE ELECTRONIC STRUCTURE OF GLASSY Pd-U-Si ALLOYS
  249. Chapter 239: TRANSPORT PROPERTIES, MAGNETIC SUSCEPTIBILITY AND SPECIFIC HEAT OF AMORPHOUS YTTERBIUM- NOBLE METAL ALLOYS
  250. Chapter 240: LOW-TEMPERATURE SPECIFIC HEATS OF AMORPHOUS Fe-Zr ALLOYS IN THE WIDE CONCENTRATION RANGE
  251. Chapter 241: NMR INVESTIGATIONS AND SUPERCONDUCTIVITY OF AMORPHOUS MoRhP AND MoRhB ALLOYS
  252. Chapter 242: THE THERMAL EXPANSION OF Pd30Zr70, Ti50Be40Zr10, Cu40Zr60, Ni24Zr76 and Ni78Si8B14 IN THE TEMPERATURE RANGE 20 to 400 K
  253. Chapter 243: ELECTRONIC STRUCTURE CALCULATION FOR THE METASTABLE Fe3B ALLOY
  254. Chapter 244: ELECTRON TRANSPORT PROPERTIES AND RELATED ELECTRONIC STRUCTURE OF Mg-BASED METALLIC GLASSES
  255. Chapter 245: ELECTRONIC TRANSPORT IN AMORPHOUS NICKEL-NIOBIUM ALLOYS
  256. Chapter 246: THE RESISTIVITY OF AMORPHOUS FeZr FILMS
  257. Chapter 247: EFFECT OF PRESSURE AND TEMPERATURE ON THE RESISTANCE OF Ni-B BASED AMORPHOUS ALLOYS
  258. Chapter 248: ELECTRICAL RESISTIVITY OF AMORPHOUS AND CRYSTALLIZED (Fe-Mn)80B14Si6 BETWEEN 300 AND 1200 K
  259. Chapter 249: MÖSSBAUER AND ELECTRICAL STUDIES ON GLASSY ALLOY Fe72Co3Si15B10
  260. Chapter 250: THE CHANGE OF TEMPERATURE COEFFICIENT OF RESISTANCE OF AMORPHOUS FILM (Mi,Cr,Fe)75Si25 WITH TEMPERING TEMPERATURE AND NON-CRYSTALLINITY
  261. Chapter 251: CURIE POINT ANOMALIES IN THE ELECTRICAL RESISTIVITY OF AMORPHOUS FERROMAGNETS
  262. Chapter 252: ELECTRICAL RESISTIVITY MINIMUM IN AMORPHOUS Fe40-xNi40Crx B20 RIBBONS
  263. Chapter 253: CONCENTRATION DEPENDENCE OF RESISTIVITY AND MAGNETORESISTIVITY OF AMORPHOUS Fe80B20. ALLOYS WITH W AND Cr ADDITIONS
  264. Chapter 254: THE INFLUENCE OF THE CONTACT PREPARATION AND THE COOLING RATE ON THE HALL EFFECT MEASUREMENTS
  265. Chapter 255: ELECTRICAL RESISTIVITY OF AMORPHOUS Co-Mn-B ALLOYS
  266. Chapter 256: PRESSURE DEPENDENCE OF THE RESISTIVITY OF AMORPHOUS NiZr ALLOYS
  267. Chapter 257: GREEN FUNCTION THEORY FOR THE ELECTRONIC TRANSPORT PROPERTIES OF DISORDERED SYSTEMS
  268. AUTHOR INDEX
  269. SUBJECT INDEX
  270. INDEX OF SUBSTANCES