All Stories

  1. Reversible transformation of NiGe in mechanically alloyed Ni–Ge powders
  2. Effects of atmosphere and milling time on the coarsening of copper powders during mechanical milling
  3. Erratum to: Metallography of Sputter-Deposited SS304+Al Coatings
  4. Grain size softening effect in Al62.5Cu25Fe12.5 nanoquasicrystals
  5. Formation of an amorphous phase and its crystallization in the immiscible Nb–Zr system by mechanical alloying
  6. Metallography of Sputter-Deposited SS304+Al Coatings
  7. Mechanical characterization of mechanically alloyed ultrafine-grained Ti5Si3+40vol% γ-TiAl composites
  8. Synthesis of Mg–Al2O3 nanocomposites by mechanical alloying
  9. Mechanically alloyed nanocomposites
  10. Iron-based bulk metallic glasses
  11. Synthesis, characterisation and mechanical properties of SiC reinforced Al based nanocomposites processed by MA and SPS
  12. Mechanochemical synthesis of nanocrystalline metal powders
  13. Mechanical behavior of emerging materials
  14. Processing and characterization of mechanically alloyed immiscible metals
  15. Metallic Glasses
  16. Structural relaxation and crystallization processes in Cu55Hf25Ti15Pd5 metallic glassy alloy
  17. Structural Characterization of Sputter-Deposited 304 Stainless Steel+10 wt pct Al Coatings
  18. Mechanochemical synthesis of ReB2 powder
  19. Synthesis of nanocomposites by mechanical alloying
  20. Synthesis of nanocomposites and amorphous alloys by mechanical alloying
  21. Synthesis of non-equilibrium phases in immiscible metals mechanically mixed by high pressure torsion
  22. Bulk Metallic Glasses
  23. Unusual solidification behavior of a Zr–Cu–Ni–Al bulk glassy alloy made from low-purity Zr
  24. Double-stage glass transition in a metallic glass
  25. Mechanical Alloying for Advanced Materials
  26. GLASS FORMATION IN MECHANICALLY ALLOYED Fe-BASED SYSTEMS
  27. Formation, Structure, and Crystallization Behavior of Cu-Based Bulk Glass-Forming Alloys
  28. Is there a hexagonal-close-packed (hcp) → face-centered-cubic (fcc) allotropic transformation in mechanically milled Group IVB elements?
  29. Microstructure and mechanical properties of Al–Zr nanocomposite materials
  30. Glass-forming ability and differences in the crystallization behavior of ribbons and rods of Cu36Zr48Al8Ag8 bulk glass-forming alloy
  31. Mechanically induced fcc phase formation in nanocrystalline hafnium
  32. A critical analysis of the glass-forming ability of alloys
  33. Lattice contraction during amorphization by mechanical alloying
  34. Low-temperature superplasticity in ultrafine-grained Ti5Si3–TiAl composites
  35. Development of new Al-based nanocomposites by mechanical alloying
  36. Six decades of metallurgical education and research: A magnificent obsession a tribute to professor T.R. Anantharaman
  37. Structure and properties of ultrafine-grained MoSi2+Si3N4 composites synthesized by mechanical alloying
  38. Synthesis of Nano-Size Hydroxyapatite (HAp) Powders by Mechanical Alloying
  39. Effect of Nb on the glass-forming ability of mechanically alloyed Fe–Ni–Zr–B alloys
  40. Effect of carbon addition on the glass-forming ability of mechanically alloyed Fe-based alloys
  41. Mechanical crystallization of Fe-based amorphous alloys
  42. Mechanical behavior of nanostructured materials symposium honoring Carl Koch
  43. Mechanical Alloying and Milling, C. Suryanarayana
  44. Mechanical Alloying and Severe Plastic Deformation
  45. Mechanical Alloying and Severe Plastic Deformation
  46. Criterion for predicting the glass-forming ability of alloys
  47. Synthesis of Nanostructured Materials by Inert-Gas Condensation Methods
  48. Rapid Solidification
  49. Combustion Characteristics of Mechanically Alloyed Ultrafine‐Grained Al‐Mg Powders
  50. Synthesis and characterization of high volume fraction Al–Al2O3 nanocomposite powders by high-energy milling
  51. Book Review: Mechanical Alloying and Milling. By C. Suryanarayana.
  52. Nanoparticle synthesis
  53. Recent Developments in Nanostructured Materials
  54. Cover Picture: Recent Developments in Nanostructured Materials (Adv. Eng. Mater. 11/2005)
  55. Low Temperature Phase Formation in Mechanically Alloyed Cu-Ga Powders
  56. Editorial
  57. Phase Transformation in Nanometer‐Sized γ‐Alumina by Mechanical Milling
  58. Mechanical properties and fracture behavior of an ultrafine-grained Al-20 wt pct Si alloy
  59. Mechanical properties and fracture behavior of an ultrafine-grained Al-20 wt pct Si alloy
  60. An unusual phase transformation during mechanical alloying of an Fe-based bulk metallic glass composition
  61. Mechanism of low-temperature θ-CuGa2 phase formation in Cu-Ga alloys by mechanical alloying
  62. Mechanical Alloying And Milling
  63. Temperature Rise During Milling
  64. Solid Solubility Extensions
  65. Characterization of Powders
  66. Synthesis of Intermetallics
  67. Disordering of Intermetallics
  68. Safety Hazards
  69. Equipment for Mechanical Alloying
  70. Concluding Remarks
  71. Process Variables in Milling
  72. Modeling Studies and Milling Maps
  73. Mechanism of Alloying
  74. Mechanochemical Processing
  75. Powder Contamination
  76. Solid-State Amorphization
  77. Nanostructured Materials
  78. Historical Perspective
  79. Section-dependent microstructure and mechanical properties of rapidly solidified and extruded Al–20Si alloy
  80. Nanostructured Intermetallics
  81. Isothermal nanocrystallisation behaviour of melt spun Al86Ni9Mm5(Mmmischmetal)amorphous alloy
  82. Homogeneous dispersion of graphite in a 6061 aluminum alloy by ball milling
  83. Extended homogeneity range of intermetallic phases in mechanically alloyed Mg–Al alloys
  84. Effect of clustering on the mechanical properties of SiC particulate-reinforced aluminum alloy 2024 metal matrix composites
  85. The structure and properties of nanocrystalline materials: Issues and concerns
  86. Nanostructured Intermetallics
  87. Developing a MoSi2+SiC Oxidation Resistant Coating for Mo, A Prototype Refractory Metal
  88. Rapid Solidification Processing
  89. Size-dependent structure and properties of rapidly solidified aluminum alloy powders
  90. The science and technology of mechanical alloying
  91. Mechanical milling of gas-atomized Al−Ni−Mm (Mm=misch metal) alloy powders
  92. Mechanical milling of gas-atomized Al-Ni-Mm (Mm = misch metal) alloy powders
  93. Is Ductilization of Intermetallics by Nanostructure Processing a Possibility?
  94. Mechanical alloying and milling
  95. NANOCRYSTALLINE MATERIALS
  96. Microstructure and wear characteristics of rapidly solidified Al–Pb–Cu alloys
  97. End notes
  98. Effect of alloying elements and degassing pressure on the structure and mechanical properties of rapidly solidified Al–20Si–5Fe–2X (X=Cr, Zr, or Ni) alloys
  99. Consolidation of nanocrystalline powders
  100. Development of a diffusion barrier layer for silicon and carbon in molybdenum—a physical vapor deposition approach
  101. Phase selection in a mechanically alloyed Cu2013;In–Ga–Se powder mixture
  102. Chapter 12 Nanostructured materials
  103. Chapter 4 Mechanical alloying
  104. Synthesis and processing of a Cu-In-Ga-Se sputtering target
  105. Synthesis of a nanocrystalline W–25 wt.% Re alloy by mechanical alloying
  106. X-Ray Diffraction
  107. Numerical Investigation of Mechanical Behaviour of Nanocrystalline Copper
  108. Synthesis of Mg2X (X = Si, Ge, or Sn) intermetallics by mechanical alloying
  109. Compaction and characterization of mechanically alloyed nanocrystalline titanium aluminides
  110. Electron microscopic characterization of a γ-TiAl alloy
  111. Mechanical Alloying of Ti-24Al-11Nb (AT%) Using the Simoloyer (ZOZ-Horizontal Rotary Ball Mill)
  112. Phase Formation during Ball Milling of Ti-Al-B Powders
  113. Recent advances in the synthesis of alloy phases by mechanical alloying/milling
  114. Minimization of Nitride Formation during Mechanical Alloying of Ti-Al-Nb
  115. A comparison of the sintering characteristics of ball-milled and attritor-milled W–Ni–Fe heavy alloy
  116. High temperature deformation behavior of a nanocrystalline titanium aluminide
  117. Identification of precipitate phases in a mechanically alloyed rapidly solidified Al-Fe-Ce alloy
  118. Hot isostatic pressing of nanostructured γ-TiAI powders
  119. Titanium Aluminides
  120. Synthesis of Advanced Lightweight Metals by Powder Metallurgy Techniques
  121. Structural evolution in mechanically alloyed Al-Fe powders
  122. Structure of mechanically alloyed Ti-Al-Nb powders
  123. Effect of premilling elemental powders on solid solubility extension of magnesium in titanium by mechanical alloying
  124. Synthesis of intermetallics by mechanical alloying
  125. Nanocrystalline materials
  126. Nanocrystalline materials
  127. Does a disordered γ-TiAl phase exist in mechanically alloyed TiAl powders?
  128. X-ray powder profile analyses on nanostructured niobium metal powders
  129. Synthesis of metastable L12 cubic phases in (Al,M)3Zr (M = Fe,Ni) powders by mechanical alloying
  130. Hydrogen Effects in Titanium Aluminide Alloys
  131. Structure and properties of nanocrystalline materials
  132. Synthesis of nanocrystalline Al5Fe2 by mechanical alloying
  133. Nanostructured titanium aluminides
  134. Electron microscopy of metastable phases in rapidly solidified Al-Co alloys
  135. Synthesis of ordered Al3Nb intermetallic by mechanical alloying
  136. ChemInform Abstract: Mechanical, Chemical, and Electrical Applications of Rapidly Solidified Alloys
  137. Transformations microstructurales lors de la mécanosynthèse de l'alliage Ti-47.5A1-3Cr
  138. Production and properties of lightweight alloys by mechanical alloying
  139. Mechanical alloying research broadens its shape
  140. Extended solid solutions in CdZn powders by mechanical alloying
  141. Thermal stability of nanostructured titanium aluminides
  142. Mechanical Alloying of Titanium‐Base Alloys
  143. Book reviews
  144. Synthesis, properties and applications of titanium aluminides
  145. Structural evolution of mechanically alloyed TiAl alloys
  146. Synthesis of metastable phases in Al-Nb powders by mechanical alloying
  147. Milling maps for phase identification during mechanical alloying
  148. Nanostructure processing for titanium-based materials
  149. The structure and mechanical properties of metallic nanocrystals
  150. Phase relations in Ti-Al-Nb alloys at 1200°C
  151. Production of nanostructure titanium-based alloys by mechanical alloying
  152. Influence of tin dioxide interphase on the residual stresses in alumina fiber/glass composites
  153. Some observations on the paper “Influence of tin dioxide interphase on the residual stresses in alumina fiber/glass composites” by S.N. Patankar, C. Suryanarayana and F.H. Froes
  154. TiAl formation by mechanical alloying
  155. Light Metals Synthesis by Mechanical Alloying
  156. Grain Boundaries in Metallic Materials
  157. Advanced Aerospace Metals Requirements and Characteristics - An Overview
  158. Influence of some alloying elements on decomposition of a Co-3wt% Ti alloy
  159. Synthesis of B2 phase in TiAlNb alloys by mechanical alloying
  160. Influence of tin dioxide interphase on the residual stresses in alumina fiber/glass composites
  161. The effects of hydrogen on titanium aluminides
  162. Rapid solidification processing of titanium alloys
  163. Texture Evolution in a Hot RolledAustenitic Stainless Steel
  164. Development of Light Alloys through Rapid Solidification Processing
  165. Metastable phases in mechanically alloyed AlMn powder mixtures
  166. Nanocrystalline titanium-magnesium alloys through mechanical alloying
  167. Thermochemical processing of titanium alloys
  168. The current status of titanium rapid solidification
  169. Nanocrystalline metals for structural applications
  170. Structure and transformation behavior of a rapidly solidified Al6.4wt.%Hf alloy
  171. Polytypism in a decagonal quasicrystalline Al–Co phase
  172. Structure and periodicity of decagonal quasicrystalline phases
  173. On the Nature of the Quasicrystalline Phase in Rapidly Solidified Al^|^ndash;Co^|^ndash;Si Alloys
  174. Quasicrystalline-to-crystalline transformation in rapidly solidified Mg32(Al, Zn)49
  175. The AlCo decagonal phase
  176. Metallography of a melt-quenched aluminum-cobalt alloy
  177. In situ transformation behavior of icosahedral and decagonal quasicrystalline phases
  178. Dislocation loops in a decagonal AlCo alloy
  179. Twinning in a vapour-deposited aluminium-iridium alloy
  180. An electron microscopic study of a rapidly solidified Al-5 wt. % Co alloy
  181. An electron microscopic study of the decagonal phase in a melt-spun Al-26 wt.% Co alloy
  182. Rapid quenching studies of a commercial aluminium alloy 2014
  183. Metastable phases in vapour-deposited Al-Zr thin films
  184. A comparison of the decagonal phase in rapidly solidified AlMn and AlPd alloys
  185. Decomposition behaviour of rapidly quenched Al–Nb alloys– TEM study
  186. Decomposition behaviour of rapidly quenched Al–Nb alloys– TEM study
  187. Amorphous to Crystalline Phase Transformations
  188. High Strength Aluminium Alloys through Rapid Solidification Processing
  189. Tensile fracture behaviour of rapidly solidified aluminium alloy RR58
  190. Transmission electron microscopy studies of a vapour-deposited AlZr Alloy
  191. A TEM study of decomposition behavior of a melt-quenched Al-Zr alloy
  192. Metallic glasses
  193. Crystallization characteristics of an amorphous Ti80Si20 alloy at high pressures
  194. Electron microscopic investigations on a melt-quenched Al-Rh alloy
  195. Al13X4-type phases in aluminium-group VIII metal systems
  196. Annealing behaviour of vapour-deposited AlRh thin films
  197. Metastable phases in vapour-deposited Al-Ru alloys
  198. A Structural Study of Vapour-Deposited Al–Pd Alloys
  199. Superconducting properties and microstructure of crystallized Hf-Nb-Si and Hf-V-Si amorphous alloys
  200. Crystallization characteristics of an amorphous Nb81Si19 alloy under high pressure and formation of the A15 phase
  201. Crystallization-induced superconductivity in amorphous Ti-Ta-Si alloys
  202. Microstructure and superconductivity in annealed Cu-Nb-(Ti, Zr, Hf) ternary amorphous alloys obtained by liquid quenching
  203. Metastable effects in melt-quenched AlPd alloys
  204. Crystallization behaviour and the resultant superconducting properties of amorphous TiVSi alloys
  205. Ductile superconducting TiNbSiB alloys with a duplex structure of amorphous and crystalline phases
  206. Superconductivity of ductile Ti-Nb-Si amorphous alloys
  207. New superconductors with metastable ordered structures
  208. SUPERCONDUCTIVITY OF DUCTILE TITANIUM-NIOBIUM-BASED AMORPHOUS ALLOYS
  209. Transformation studies and mechanical properties of melt-quenched amorphous titanium-silicon alloys
  210. High-pressure synthesis of A15 Nb3Si phase from amorphous NbSi alloys
  211. Rapidly Quenched Metals
  212. Rapidly Quenched Metals
  213. Electron Microscopic Studies of Phase Transformations in NiSe Thin Films
  214. Decomposition studies of a liquisol quenched Al-33 at.% Mg alloy
  215. An electron diffraction study of a metastable Al2Pd phase
  216. A new ordered phase in the AlPd system
  217. Solute-vacancy binding energies in magnesium alloys
  218. Electron microscopy and electron diffraction study of ordering in Ni4W
  219. A new metastable phase in the silver-silicon system
  220. On the crystal structure of a non-equilibrium phase in the gold-silicon system
  221. The dislocation structure of highangle grain boundaries in tungsten, molybdenum and gold
  222. Lattice parameters of liquisol-quenched aluminium
  223. Rapid quenching from the melt: An annotated bibliography 1958?72
  224. Constitution of liquisol-quenched AI-W alloys
  225. On the structure of a metastable phase in the lead-bismuth system
  226. Formation of hexagonal phases in α–β brasses
  227. Review: A decade of quenching from the melt
  228. Constitution, structure and energetics of splat-cooled alloys
  229. Metallography of rapidly solidified aluminum-germanium alloys
  230. On the origin of metastable intermediate phases in splat-cooled binary alloys
  231. Solidification of aluminium-germanium alloys at high cooling rates