All Stories

  1. Critical assessment: electrical field/current application – a revolution in materials processing/sintering?
  2. ZnO nanorods grown on ZnO sol–gel seed films: Characteristics and optical gas-sensing properties
  3. Au and Pt Nanoparticles Effects on the Optical and Electrical Gas Sensing Properties of Sol–Gel-Based ZnO Thin-Film Sensors
  4. A simple all-solution approach to the synthesis of large ZnO nanorod networks
  5. Design tunable materials: Ferroelectric-antiferroelectric composite with core-shell structure
  6. Mechanism of Low‐Temperature Protonic Conductivity in Bulk, High‐Density, Nanometric Titanium Oxide
  7. Effect of nanostructure on the thermal conductivity of La-doped SrTiO3 ceramics
  8. Production of Y-TZP nanostructured sintered samples as core materials
  9. Mechanisms of Zinc Oxide Nanocrystalline Thin Film Formation by Thermal Degradation of Metal-Loaded Hydrogels
  10. Solution deposition of micropatterned TiO2, ZrO2, SnO2, and In2O3 thin films through metal-loaded hydrogels
  11. Electric fields and the future of scalability in spark plasma sintering
  12. Densification and properties of bulk nanocrystalline functional ceramics with grain size below 50nm
  13. Colloidal synthesis and thermoelectric properties of Cu2SnSe3nanocrystals
  14. A simple two-step solution chemistry method for synthesis of micropatterned ZnO nanorods based on metal-loaded hydrogels
  15. Effects of local Joule heating during the field assisted sintering of ionic ceramics
  16. Local field strengths during early stage field assisted sintering (FAST) of dielectric materials
  17. Athermal and thermal mechanisms of sintering at high heating rates in the presence and absence of an externally applied field
  18. Transport properties in bulk nanocrystalline Sm-doped ceria with doping content between 2 and 30at.%
  19. Field Assisted Sintering of Nanometric Ceramic Materials
  20. Low temperature proton conduction in bulk nanometric TiO2 prepared by high-pressure field assisted sintering
  21. Parametric investigation of temperature distribution in field activated sintering apparatus
  22. Synthesis of bulk tetragonal zirconia without stabilizer: The role of precursor nanopowders
  23. Synthesis of Fully Dense Anatase TiO2 Through High Pressure Field Assisted Rapid Sintering
  24. Field Assisted Sintering Mechanisms
  25. Solution Deposition of Micropatterned Nanocrystalline Metal Oxide Films Through Hydrogels
  26. Micropatterned nanocrystalline zinc oxide thin films obtained through metal-loaded hydrogels
  27. Spark Plasma Sintering of Less-Crystallized Boron Carbide with Defects
  28. Fundamental Investigations of Reactivity and Densification in the SPS
  29. Cell-Assisted Deposition of Inorganic Coatings
  30. Modeling the ignition of self-propagating combustion synthesis of transition metal aluminides
  31. Complex thermal evolution of size-stabilized tetragonal zirconia
  32. Temperature and stress fields evolution during spark plasma sintering processes
  33. Functionally graded boron carbide and aluminum composites with tubular geometries using pulsed electric current sintering
  34. Synthesis of Fully Dense Nanostabilized Undoped Tetragonal Zirconia
  35. Fundamentals and applications of field/current assisted sintering
  36. Mechanism of low temperature decomposition of NiO single crystals
  37. Characterization of low temperature protonic conductivity in bulk nanocrystalline fully stabilized zirconia
  38. Electrical, structural, and microstructural characterization of nanometric La0.9Sr0.1Ga0.8Mg0.2O3−δ (LSGM) prepared by high-pressure spark plasma sintering
  39. Characterization of alumina matrix nanocomposite with ZrO2 inclusions densified by spark plasma sintering
  40. Continuous functionally graded boron carbide-aluminum nanocomposites by spark plasma sintering
  41. Experiments and modeling of spark plasma sintered, functionally graded boron carbide–aluminum composites
  42. The absence of plasma in “spark plasma sintering”
  43. Microstructural evolution during the dissolution of nickel in liquid aluminum under the influence of an electric field
  44. Unprecedented Room-Temperature Electrical Power Generation Using Nanoscale Fluorite-Structured Oxide Electrolytes
  45. Synthesis and Characterization of Pure and Doped (Na, Ca, Sr) Nanograined LaMnO3 Magnetoresistive Ceramics
  46. Oxygen diffusion in nanocrystalline yttria-stabilized zirconia: the effect of grain boundaries
  47. Optically Transparent Polycrystalline Al2O3 Produced by Spark Plasma Sintering
  48. Directional electromigration-enhanced interdiffususion in the Cu–Ni system
  49. Transparent Nanometric Cubic and Tetragonal Zirconia Obtained by High-Pressure Pulsed Electric Current Sintering
  50. Kinetics of current-enhanced dissolution of nickel in liquid aluminum
  51. Spark plasma sintering: A high strain rate low temperature forming tool for ceramics
  52. Current effects on neck growth in the sintering of copper spheres to copper plates by the pulsed electric current method
  53. Gravity effects on reactive settling of transition metals in liquid aluminum under SHS conditions
  54. Spark plasma sintering and forming of transparent polycrystalline Al 2 O 3 windows and domes
  55. Dissolution and precipitation under gravitational conditions in the W–Al system
  56. Gravity effects on reactive settling in the Al–W system in SHS
  57. Nanoscale Effects on the Ionic Conductivity of Highly Doped Bulk Nanometric Cerium Oxide
  58. Enhanced low-temperature protonic conductivity in fully dense nanometric cubic zirconia
  59. Ignition and reaction mechanism of Co–Al and Nb–Al intermetallic compounds prepared by combustion synthesis
  60. Pulse Electric Current Synthesis and Processing of Materials
  61. A new approach to the modeling of SHS reactions: Combustion synthesis of transition metal aluminides
  62. Simulation Study of Wave Propagation Instabilities for the Combustion Synthesis of Transition Metals Aluminides
  63. Dynamic behavior in self-propagating high-temperature synthesis of intermetallic compounds
  64. Fast low-temperature consolidation of bulk nanometric ceramic materials
  65. The effect of electric field and pressure on the synthesis and consolidation of materials: A review of the spark plasma sintering method
  66. Synthesis and characterization of dense ultra-high temperature thermal protection materials produced by field activation through spark plasma sintering (SPS): I. Hafnium Diboride
  67. Characterization of densified fully stabilized nanometric zirconia by positron annihilation spectroscopy
  68. Direct Evidence of Electron Accumulation in the Grain Boundary of Yttria-Doped Nanocrystalline Zirconia Ceramics
  69. Erbium-doped LAS glass ceramics prepared by spark plasma sintering (SPS)
  70. Solid-state synthesis and spark plasma sintering of submicron BaYxZr1−xO3−x/2 (x=0, 0.08 and 0.16) ceramics
  71. SHS of NbSi2: A Comparison Between Experiments and Simulations
  72. Fundamental investigations on the spark plasma sintering/synthesis process
  73. Influence of Synthesis Temperature on the Defect Structure of Boron Carbide: Experimental and Modeling Studies
  74. Fundamental investigations on the spark plasma sintering/synthesis process
  75. Fundamental investigations on the spark plasma sintering/synthesis process
  76. Nickel/Yttria-Stabilized Zirconia Cermets from Combustion Synthesis: Effect of Process Parameters on Product Microstructure
  77. Zirconia-Based Metastable Solid Solutions through Self-Propagating High-Temperature Synthesis: Synthesis, Characterization, and Mechanistic Investigations
  78. Combustion synthesis of mechanically activated powders in the Ta–Si system
  79. Combustion Modes and Reaction Paths of the Self-Sustained High-Temperature Synthesis of Intermetallic Compounds:  A Computer Simulation Study of the Effect of Exothermicity
  80. Modeling Studies of the Effect of Twins on the X-ray Diffraction Patterns of Boron Carbide
  81. Spark plasma sintering and characterization of bulk nanostructured fully stabilized zirconia: Part I. Densification studies
  82. Spark plasma sintering and characterization of bulk nanostructured fully stabilized zirconia: Part II. Characterization studies
  83. Role of mechanical activation in SHS synthesis of TiC
  84. Electric current enhanced defect mobility in Ni3Ti intermetallics
  85. Mechanical processing and self-sustaining high-temperature synthesis of TiC powders
  86. Modified interfacial reactions in Ag–Zn multilayers under the influence of high DC currents
  87. Ignition mechanism of mechanically activated Me–Si(Me = Ti, Nb, Mo) mixtures
  88. Disorder and Nonstoichiometry in Synthetic Garnets A 3 B 5 O 12 (A = Y, Lu−La, B = Al, Fe, Ga). A Simulation Study
  89. Reactive growth of niobium silicides in bulk diffusion couples
  90. Enhanced growth of intermetallic phases in the Ni–Ti system by current effects
  91. Self-propagating high-temperature synthesis microalloying of MoSi2 with Nb and V
  92. Self-propagating high-temperature synthesis of functionally graded materials as thermal protection systems for high-temperature applications
  93. SHS (Self-sustained high-temperature synthesis) of intermetallic compounds: effect of process parameters by computer simulation
  94. Identification of Conductivity Distribution in a Au-Al Junction for Application to Integrated Circuits
  95. Self-Propagating High-Temperature Synthesis of Intermetallic Compounds:  A Computer Simulation Approach to the Chemical Mechanisms
  96. Ignition mechanism in combustion synthesis of Ti–Al and Ti–Ni systems
  97. Combustion synthesis of mechanically activated powders in the Nb–Si system
  98. Ignition phenomena in combustion synthesis: An experimental methodology
  99. Reactive Growth of Tantalum Silicides in Ta−Si Diffusion Couples
  100. Computer Simulation Approach to the Chemical Mechanisms of Self-Propagating High-Temperature Reactions:  Effect of Phase Transitions on the Thermite Reaction between O 2 Gas and Zr Powders
  101. High-flux current effects in interfacial reactions in Au-Al multilayers
  102. High-flux current effects in interfacial reactions in Au–Al multilayers
  103. Reactive diffusion in the system vanadium–silicon
  104. On the diffusional growth of compounds with narrow homogeneity range in multiphase binary systems
  105. Combustion of zirconium foils in oxygen
  106. Mechanochemistry of the titanium–silicon system: Compositional effects
  107. Metal–metal oxides prepared by MSR and SHS techniques
  108. Field activated combustion synthesis of the silicides of vanadium
  109. Combustion synthesis of mechanically activated powders in the Ti–Si system
  110. Electromigration effects in Al-Au multilayers
  111. Field-activated combustion synthesis of Ta–Si intermetallic compounds
  112. Dynamic behaviour and chemical mechanism in the self-propagating high-temperature reaction between Zr powders and oxygen gas
  113. Combustion of zirconium powders in oxygen
  114. A finite difference model for the combustion of zirconium in oxygen
  115. Synthesis of Cr–Si intermetallic compounds by field-activated combustion synthesis
  116. Use of two-color array pyrometry for characterization of combustion synthesis waves
  117. Oxide superconductors: a Chemist’s View
  118. Rietveld Structure Refinement of Pr Doped Zirconia
  119. Combustion synthesis of Zr–Si intermetallic compounds
  120. Fe-Doped Zirconium Oxide Produced by Self-Sustained High-Temperature Synthesis:  Evidence for an Fe−Zr Direct Bond
  121. Electrical properties of Ni/YSZ cermets obtained through combustion synthesis
  122. Computer Simulation Approach to Reliability and Accuracy in Powder Diffraction Structure Refinement
  123. Fast Precipitation Pattern Formation in a Metallic Two-Component Dissolution−Reaction Process
  124. Chemical Mechanism of the Zr + O 2 → ZrO 2 Combustion Synthesis Reaction
  125. An Exact and Simple Approach to log-log Plots for Defect and Ionic Equilibria
  126. Combustion synthesis of ZrAl intermetallic compounds
  127. Defect Chemistry of “BaCuO2” II. Transport Properties and Nature of Defects
  128. Defect Chemistry of " BaCuO2" I. Oxygen Non -Stoichiometry, Cation Molecularity and X-ray Diffraction Determinations
  129. A two‐color spatial‐scanning pyrometer for the determination of temperature profiles in combustion synthesis reactions
  130. Chemical Diffusion in the Bi, Sr, Ca, Cu/O System: The Kinetics and Mechanism of the Solid-State Synthesis of a Single-Phase "2212" Material
  131. Thermodynamic study of intermetallic phases in the HfAl system
  132. On the Calculation of Point Defect Equilibria
  133. An environmental chamber for powder diffractometers and for temperatures up to 1200 °C under various atmospheres and vacuum
  134. Homogeneity Range, Hole Concentration, and Electrical Properties of the Bi2Sr3-x CaxCu2O8+y ,(1≦ x ≦ 2) Superconductors
  135. Chemical diffusion in the Bi, Sr, Ca, Cu/O system
  136. On the least-squares determination of lattice dimensions: a modified singular value decomposition approach to ill-conditioned cases
  137. Kinetics and mechanisms of formation of the Bi2Sr2CuOx superconductor
  138. Phase formation and physical properties in the Bi2O3/SrO/CuO system near the 2:2:1 (Bi:Sr:Cu) stoichiometry
  139. Solid state synthesis of YBa2Cu3O7−x: Mechanisms of BaCuO2 formation
  140. An Electronic Driver for the Automatic Divergence Slit Attachment of Commercial Diffractometers
  141. The propagation of a solid‐state combustion wave in Ni‐Al foils
  142. Nonequilibrium calcium oxide-magnesium oxide solid solutions produced by chemical decomposition
  143. Self-propagating exothermic reactions: The synthesis of high-temperature materials by combustion
  144. Self-propagating exothermic reactions: The synthesis of high-temperature materials by combustion
  145. Dolomite Decomposition to (Ca,Mg)O Solid Solutions: An X-Ray Diffraction Study.Part II.
  146. Dolomite Decomposition to (Ca,Mg)O Solid Solutions: An X-Ray Diffraction Study, Part I.
  147. Self-Propagating High-Temperature Synthesis of Hard Materials