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公益財団法人 ホソカワ粉体工学振興財団 | 論文
- Effect and Behavior of Liquid Additive Molecules in Dry Ultrafine Grinding of Limestone [Translated]†
- A Comparison of Aerosol Performance Using Standardized Entrainment Tubes vs. Dry Powder Inhaler Devices
- Dispersion and Flocculation Behavior of Fine Metal Oxide Particles in Various Solvents [Translated]†
- Methods of Estimating the Dustiness of Industrial Powders – A Review
- Applications of Engineered Particulate Systems in Agriculture and Food Industry
- Aluminium Matrix Composites Reinforced with Si3N4, AlN and ZrB2, Produced by Conventional Powder Metallurgy and Mechanical Alloying
- Characteristics and hydrogen desorption property of nanostructured graphite produced by grinding in vacuum atmospheres [Translated]†
- Measurement of Adhesion Forces between Particles and Rough Substrates in Air with the Vibration Method
- Preparation of the Composite Thermoelectric Materials with Small Particles Dispersion by MA [Translated]†
- Powder Technology and Pharmaceutical Development: Particle Size and Particle Adhesion
- Influence of Habit Modifiers on Particle Shape in a Crystallization Process [Translated]†
- Physical Properties of Supercritically-Processed and Micronised Powders for Respiratory Drug Delivery
- Rapid Size Classification of Ultrafine Particles Using Surface Characteristics [Translated]†
- Fundamental Study on Particle Transportation by Pressure Waves in Pipes—The Characteristics of Particle Transportation— [Translated]†
- Performance and Cost-Effectiveness of Ferric and Aluminum Hydrous Metal Oxide Coating on Filter Media to Enhance Virus Removal
- The Improvement and Upscaling of a Laser Chemical Vapor Pyrolysis Reactor
- Hydrogen Storage Characteristics of Nickel Nanoparticle Coated Magnesium Prepared by Dry Particle Coating
- Modelling of the gas fluidization of a mixture of cohesive and cohesionless particles by a combined continuum and discrete model
- Flame Synthesis of Complex Fluoride-Based Nanoparticles as Upconversion Phosphors
- Production of Silica Particles by Electrostatic Atomization [Translated]†