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公益財団法人 ホソカワ粉体工学振興財団 | 論文
- A Study on the Formation of Cu-Al2O3 Composite Particles by Mechanofusion – A Consideration on the Formation relating to the Effects of Vacuum and Temperature Increase of Particle Surfaces – [Transl
- Effects of Tensile Strength and Tensile Breakup Energy on Mulling Processes of Wet Powders
- Dispersion and Compounding Process of Particulate Ag and Fine Ni Powder Using a High-speed/High-shear Mill [Translated]†
- Characteristic Shearing Curves of a Powder Bed Measured with a Rotary Intrusion Rheometer [Translated]†
- A Preliminary Model for Mechanofusion Powder Processing
- Recent Works on Powder Mixing and Powder Coating Using an Optical Measuring Method
- Tracking Single Particles in Process Equipment or Probing Processes Using Positrons
- Void Fraction of Multi-Component Randomly Packed Beds with Size Distributions [Translated]†
- Analysis of Feed Shoe Powder Deposition Method Using a Real-time Cumulative Mass Deposition Tester
- Advances in Selective Flocculation Technology for Solid -Solid Separations
- On the Sensitivity of the Maximum Explosion Pressure of a Dust Deflagration to Turbulence
- Effect of Packing Conditions of a Fine Powder on Powder Pressure in a Bin [Translated]†
- The Formation of Ultrafine Particles of Metal Sulfide by the Electrostatic Spray Pyrolysis Method [Translated]†
- Numerical Simulation of Three Dimensional Fluidized Bed Using Nozzle at Bottom and Experimental Verification [Translated]†
- Mechanically Induced Reactivity of ZnFe2O4
- Dynamic Shape Factors of Regular Shaped Agglomerates and Estimation Based on Agglomerate Symmetry – For Rectangular parallelepiped, V-and W-shaped, Hexagonal and H-shaped Agglomerates – [Translated]
- The Production of Thin Metal Oxide Films by Spray Pyrolysis Using Supercritical CO2-Assisted Aerosolization of Aqueous Solutions
- Recent Applications of Supercritical Fluid Technology to Pharmaceutical Powder Systems
- Hydrodynamic Modeling of Swirling Flow and Particle Classification in Large-Scale Hydrocyclones
- Ball Charge Dynamics in a Planetary Mill