All Stories

  1. Interacting gravity waves at two interfaces between three liquid layers in a rectangular container.
  2. Experimental and numerical investigation of acoustic pressures in different liquids
  3. Measurements and modelling of dendritic growth velocities of pure Fe with thermoelectric magnetohydrodynamics convection
  4. Modeling of convection, temperature distribution and dendritic growth in glass-fluxed nickel melts
  5. Numerical modelling of ultrasonic waves in a bubbly Newtonian liquid using a high-order acoustic cavitation model
  6. Characterizing the cavitation development and acoustic spectrum in various liquids
  7. The effects of Thermoelectric Magnetohydrodynamics in directional solidification under a transverse magnetic field
  8. 4D synchrotron X-ray tomographic quantification of the transition from cellular to dendrite growth during directional solidification
  9. Coupling acoustic cavitation and solidification in the modeling of light alloy melt ultrasonic treatment
  10. Dynamic melting and impurity particle tracking in continuously adjustable AC magnetic field
  11. A model of cavitation for the treatment of a moving liquid metal volume
  12. Fundamental studies on cavitation melt processing
  13. Characterisation of the ultrasonic acoustic spectrum and pressure field in aluminium melt with an advanced cavitometer
  14. CFD Modeling and Simulation in Materials Processing 2016
  15. Optimization of the Ultrasonic Processing in a Melt Flow
  16. A High-Order Acoustic Cavitation Model for the Treatment of A Moving Liquid Metal Volume
  17. Dendritic growth velocities in an undercooled melt of pure nickel under static magnetic fields: A test of theory with convection
  18. Investigation of the factors influencing cavitation intensity during the ultrasonic treatment of molten aluminium
  19. MULTIPLE TIMESCALE MODELLING OF PARTICLE SUSPENSIONS IN METAL MELTS SUBJECTED TO EXTERNAL FORCES
  20. CFD Modeling and Simulation in Materials Processing 2016
  21. Modeling the Electromagnetic Processing of Recycled Silicon Dust
  22. Optimization of the Ultrasonic Processing in a Melt Flow
  23. Comparison between low-order and high-order acoustic pressure solvers for bubbly media computations
  24. Comparison of cavitation intensity in water and in molten aluminium using a high-temperature cavitometer
  25. Dynamics of two interacting hydrogen bubbles in liquid aluminum under the influence of a strong acoustic field
  26. Effect of Input Power and Temperature on the Cavitation Intensity During the Ultrasonic Treatment of Molten Aluminium
  27. Finite volume solutions for electromagnetic induction processing
  28. Contactless ultrasonic treatment of melts using EM induction
  29. The effects of natural, forced and thermoelectric magnetohydrodynamic convection during the solidification of thin sample alloys
  30. Modeling the Break-up of Nano-particle Clusters in Aluminum- and Magnesium-Based Metal Matrix Nano-composites
  31. Contactless Ultrasound Generation in a Crucible
  32. An Inverse Problem for the Absorption of Fatty Acid
  33. Modelled atmospheric contribution to nitrogen eutrophication in the English Channel and the southern North Sea
  34. Application of the "Full Cavitation Model" to the fundamental study of cavitation in liquid metal processing
  35. In Situ Synchrotron Radiography and Spectrum Analysis of Transient Cavitation Bubbles in Molten Aluminium Alloy
  36. A fourth-order partial differential equation denoising model with an adaptive relaxation method
  37. Contactless Acoustic Wave Generation in a Melt by Electromagnetic Induction
  38. Grain Refinement and Nanoparticle Dispersion Using Traveling Magnetic Field
  39. Influence of a Slow Rotating Magnetic Field in Thermoelectric Magnetohydrodynamic Processing of Alloys
  40. Contactless Acoustic Wave Generation in a Melt By Electromagnetic Induction
  41. Grain Refinement and Nanoparticle Dispersion Using Traveling Magnetic Field
  42. Analysis of heat transfer through the casting‐mould interface including gas‐gap effect and application to TiAl castings
  43. A Multiscale 3D Model of the Vacuum Arc Remelting Process
  44. Toward a Full Simulation of the Basic Oxygen Furnace: Deformation of the Bath Free Surface and Coupled Transfer Processes Associated with the Post-Combustion in the Gas Region
  45. Modeling the Fluid Dynamics and Dendritic Solidification in EM-Levitated Alloy Melts
  46. Using thermoelectric magnetohydrodynamics to control microstructural evolution
  47. Modeling Magnetically Excited and Magnetically Damped Liquid Metal Flow
  48. CO2Removal from Industrial Off-Gas Streams by Fluidized Bed Carbonation
  49. Mathematical Modeling of a Compressible Oxygen Jet Interacting with a Free Surface in a Basic Oxygen Furnace for Steel Production
  50. Numerical modelling of tilt casting process forγ-TiAl alloys
  51. Mathematical modelling of a compressible oxygen jet entering a hot environment using a pressure-based finite volume code
  52. A Numerical Model Coupling Thermoelectricity, Magnetohydrodynamics and Dendritic Growth
  53. Investigation of Instabilities Arising with Non-Orthogonal Meshes Used in Cell Centred Elliptic Finite Volume Computations
  54. On a Modified Diffusion Model for Noise Removal
  55. Use of a Static Magnetic Field in Measuring the Thermal Conductivity of a Levitated Molten Droplet
  56. Numerical modelling of liquid droplet dynamics in microgravity
  57. Contraction-Expansion Coefficient Learning in Quantum-Behaved Particle Swarm Optimization
  58. Numerical model of electrode induction melting for gas atomization
  59. Local convergence of an adaptive scalar method and its application in a nonoverlapping domain decomposition scheme
  60. Development of a turbulence-free casting technique for titanium aluminides
  61. Modelling the dynamics of the tilt-casting process and the effect of the mould design on the casting quality
  62. Application of Lagrangian particle dispersion models to air quality assessment in the Trans-Manche region of Nord-Pas-de-Calais (France) and Kent (Great Britain)
  63. Experimental and Numerical Simulation of the Mould Region of a Steel Continuous Caster
  64. Effects of magnetic fields on crystal growth
  65. Numerical simulation of the effect of fluid flow on solute distribution and dendritic morphology
  66. Dynamic Model for Metal Cleanness Evaluation by Melting in a Cold Crucible
  67. Choosing the Appropriate Level of Coupling in Multiphysics Modeling of Metallurgical Processes
  68. ChemInform Abstract: Numerical Modelling for Electromagnetic Processing of Materials
  69. Droplet Oscillations in High Gradient Static Magnetic Field
  70. Dynamic melting model for small samples in cold crucible
  71. Numerical investigation of a source extraction technique based on an acoustic correction method
  72. Modelling of Electromagnetic Levitation - Consequences on Non-contact Physical Properties Measurements
  73. A mathematical description of the acoustic coupling of the mass/spring model
  74. Computational Modelling of Multi-Physics and Multi-Scale Processes in Parallel
  75. Numerical simulation of flow-induced cavity noise in self-sustained oscillations
  76. Numerical Modelling for Electromagnetic Processing of Materials
  77. Computational modeling of mold filling and related free-surface flows in shape casting: An overview of the challenges involved
  78. Experimental and numerical study of the cold crucible melting process
  79. Computational modelling of bubbles, droplets and particles in metals reduction and refining
  80. A DISTRIBUTED ALGORITHM FOR FLOW INDUCED ACOUSTICS
  81. Investigation into the performance of turbulence models for fluid flow and heat transfer phenomena in electronic applications
  82. Spatial variability of air pollution in the vicinity of a permanent monitoring station in central Paris
  83. Heat and mass transfer in two-phase porous materials under intensive microwave heating
  84. Modelling induction skull melting design modifications
  85. A new computational approach to microwave heating of two‐phase porous materials
  86. A finite volume unstructured mesh approach to dynamic fluid–structure interaction: an assessment of the challenge of predicting the onset of flutter
  87. An acoustic correction method for extracting sound signals
  88. Evaluation of distortions in laser welded shipbuilding parts using local-global finite element approach
  89. Modelling air quality in street canyons: a review
  90. Modelling Electromagnetically Levitated Liquid Droplet Oscillations
  91. Model sensitivity and uncertainty analysis using roadside air quality measurements
  92. Dynamic fluid–structure interaction using finite volume unstructured mesh procedures
  93. An experimental and numerical CFD study of turbulence in a tundish container
  94. Finite volume methods applied to the computational modelling of welding phenomena
  95. A coarse grid extraction of sound signals for computational aeroacoustics
  96. A domain decomposition algorithm for inverse welding problems
  97. Performance Evaluation of a Distributed Algorithm for an Inverse Heat Conduction Problem
  98. Consideration of heat transfer and solidification in 3-D MHD calculation
  99. Mathematical modelling tools for the optimisation of direct smelting processes
  100. Staggered-mesh computation for aerodynamic sound
  101. Domain decomposition methods for some aerodynamic noise problems
  102. A domain decomposition algorithm for viscous/inviscid coupling
  103. The numerical modelling of DC electromagnetic pump and brake flow
  104. FREE SURFACE FLOW AND HEAT TRANSFER IN CAVITIES: THE SEA ALGORITHM
  105. The development of a structured mesh grid adaption technique for resolving shock discontinuities in upwind Navier-Stokes codes
  106. Heat transfer in differentially heated non‐newtonian cavities
  107. The CFD analysis of simple parabolic and elliptic MHD flows
  108. NUMERICAL MODELLING OF CIRCULATING FLUIDIZED BEDS
  109. Fluidized Bed Technology- Principles and Applications (Adam-Hingler Edition)
  110. Computational fluid dynamics
  111. Mathematical simulation of hydrocyclones
  112. A hydrometeorological, three-dimensional model of thermal energy releases into environmental media
  113. The hydrocyclone classifier — A numerical approach
  114. Laminar and turbulent natural convection in an enclosed cavity
  115. GRAFFIC: A computer package for the interactive graphical representation of fluid-flow phenomena
  116. GRAFFIC — A Computer Package for the Interactive Graphical Representation of Fluid-Flow Phenomena
  117. Turbulence Modelling for Electronic Cooling: A Review
  118. Accuracy of turbulence models and CFD for thermal characterisation of electronic systems
  119. An integrated approach to flow, thermal and mechanical modeling of electronics devices
  120. Mathematical modelling: a laser soldering process for an optoelectronics butterfly package
  121. Simulation of the stencil printing process [solder pastes]
  122. Estimates of Uncertainty in Urban Air Quality Model Predictions
  123. Direct Current Magnetic Levitation of a Liquid Droplet: Numerical Solutions
  124. Effect of Magnetic Field Orientation on Thermoelectric Magnetohydrodynamic Interactions in Dendritic Growth
  125. Magnetic Levitation of a Large Mass of Liquid Metal
  126. Turbulence Model Performance in Continuous Casting Simulations