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Full Description
The Fourth Edition of Powder Technology Handbook continues to serve as the comprehensive guide to powder technology and the fundamental engineering processes of particulate technology, while incorporating significant advances in the field in the decade since publication of the previous edition. The handbook offers a well-rounded perspective on powder technologies in gas and liquid phases that extends from particles and powders to powder beds and from basic problems to actual applications. This new edition features fully updated and new chapters written by a team of internationally distinguished contributors. All content has been updated and new sections added on. Powder Technology Handbook provides methodologies of powder and particle handling technology essential to scientific researchers and practical industrial engineers. It contains contemporary and comprehensive information on powder and particle handling technology that is extremely useful not only to newcomers but also to experienced engineers and researchers in the field of powder and particle science and technology.
Contents
Part 11.1 Particle Size1.2 Size Measurement1.3 Particle Shape Characterization1.4 Particle Density1.5 Hardness, Stiffness and Toughness of Particles 1.6 Surface Properties and Analysis1.7 Characterization by Atomic Force Microscope1.8 Specific Properties of Nanoparticles1.9 Standard Powders and Particles Part 2: Fundamental Properties of Particles2.1 Optical Properties 2.2 Electrification and Electrophoresis2.3 Magnetic Properties2.4 Diffusion of Particles2.5 Particle Motion in Fluid2.6 Particle Sedimentation2.7 Adhesive Force of Single Particle2.8 Particle Deposition and Reentrainment2.9 Agglomeration (Coagulation) 2.10 Viscosity of Slurry2.11 Particle Impact Breakage 2.12 Sintering2.13 Mechanochemistry2.14 Ignition and Combustion Reaction2.15 Solubility and Dissolution RatePart 3: Properties of Powders and Powder Beds3.1 Specific Surface Area3.2 Adsorption Characteristics 3.3 Moisture Content3.4 Electrical Properties3.5 Packing Properties3.6 Capillarity of Porous Media3.7 Permeation (Flow through Porous Media)3.8 Mechanical Properties of a Powder Bed3.9 Fluidity of Powder3.10 Blockage in Storage Vessels3.11 Segregation of Particles3.12 Vibrational and Acoustic CharacteristicsPart 4 Particle Generation and Modification4.1 Aerosol Particle Generation4.2 Generation of Particles by Reactions4.3 Crystallization4.4 Design and Formation of Composite Particles4.5 Electrical Charge Control4.6 Surface ModificationPart 5: Powder Handlings and Simulations5.1 Crushing and Grinding5.2 Dispersion of Particles5.3 Classification5.4 Storage (Silo)5.5 Feeding5.6 Transportation5.7 Fluidization and Fluidized Bed5.8 Mixing5.9 Slurry Conditioning5.10 Granulation5.11 Kneading and Plastic Forming5.12 Drying5.13 Combustion5.14 Dust Collection5.15 Electrostatic Separation5.16 Magnetic Separation5.17 Dry Dense Medium Separation5.18 Gravity Thickening5.19 Filtration5.20 Expression5.21 Flotation5.22 Electrostatic Powder Coating5.23 Multipurpose Equipment5.24 Nanoparticle Handling and Formulation5.25 Simulation of Powders and Particles in Dry and Wet PhasesPart 6: Process Instrumentation6.1 Powder Sampling6.2 Particle Sampling in Gas Flow6.3 Concentration and Flow Rate Measurement6.4 Level Measurement of Powder Bed6.5 Temperature Measurement of Powder6.6 On-Line Measurement of Moisture Content6.7 TomographyPart 7: Working Atmospheres-Risks, Hazards and Protection-7.1 Health Effects Due to Particle Matter7.2 Risks of Nanoparticles7.3 Respiratory Protective Devices for Particulate Matter7.4 Dust Explosion
