Fundamentals of ceramic powder processing and synthesis
Terry A. Ring.
Bok Engelsk 1996 · Electronic books.
Utgitt | San Diego : : Academic Press, , c1996.
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Omfang | 1 online resource (985 p.)
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Opplysninger | Description based upon print version of record.. - Front Cover; Fundamentals of Ceramic Powder Processing and Synthesis; Copyright Page; Contents; Preface; PART I: INTRODUCTION HISTORY, RAW MATERIALS, CERAMIC POWDER CHARACTERIZATION; I.1 General Concepts of Ceramic Powder Processing; References; Chapter 1. Ceramic Powder Processing History and Discussion of Natural Raw Materials; 1.1 Objectives; 1.2 Historical Perspective; 1.3 Raw Materials; 1.4 Selecting a Raw Material; 1.5 Summary; References; Chapter 2. Ceramic Powder Characterization; 2.1 Objectives; 2.2 Introduction; 2.3 Powder Sampling; 2.4 Particle Size; 2.5 Particle Morphology. - 2.6 Powder Density2.7 Surface Area; 2.8 Particle Size Distributions; 2.9 Comparison of Two-Powder Size Distributions; 2.10 Blending Powder Samples; 2.11 Summary; Problems; References; PART II: CERAMIC POWDER SYNTHESIS; Chapter 3. The Population Balance; 3.1 Objectives; 3.2 Microscopic Population Balance; 3.3 Macroscopic Population Balance; 3.4 Population Balances Where Length, Area, and Volume Are Conserved; 3.5 Population Balances on a Mass Basis; 3.6 Summary; References; Chapter 4. Comminution and Classification of Ceramic Powders; 4.1 Objectives; 4.2 Comminution. - 4.3 Classification of Ceramic Powders4.4 Comminution and Classification Circuits; 4.5 Summary; Problems; References; Chapter 5. Ceramic Powder Synthesis with Solid Phase Reactant; 5.1 Objectives; 5.2 Introduction; 5.3 Thermodynamics of Fluid-Solid Reactions; 5.4 Oxidation Reactions; 5.5 Reduction Reactions; 5.6 Nitridation Reactions; 5.7 Thermodynamics of Multiple Reaction Systems; 5.8 Liquid-Solid Reactions; 5.9 Fluid-Solid Reaction Kinetics; 5.10 Fluid-Solid Reactors; 5.11 Solid-Solid Reactions; 5.12 Summary; Problems; References; Chapter 6. Liquid Phase Synthesis by Precipitation. - 6.1 Objectives6.2 Introduction; 6.3 Nucleation Kinetics; 6.4 Growth Kinetics; 6.5 Crystal Shape; 6.6 Size Distribution Effects--Population Balance and Precipitator Design; 6.7 Coprecipitation of Ceramic Powders; 6.8 Summary; Problems; References; Chapter 7. Powder Synthesis with Gas Phase Reactants; 7.1 Objectives; 7.2 Introduction; 7.3 Gas Phase Reactions; 7.4 Reaction Kinetics; 7.5 Homogeneous Nucleation; 7.6 Collisional Growth Theory; 7.7 Population Balance for Gas Phase Synthesis; 7.8 Dispersion Model for Gas Synthesis Reactors; 7.9 Population Balance with Aggregation. - 7.10 Quenching the Aggregation7.11 Particle Shape; 7.12 Summary; Problems; References; Chapter 8. Other Ceramic Powder Fabrication Processes; 8.1 Objectives; 8.2 Spray Drying; 8.3 Spray Roasting; 8.4 Metal Organic Decomposition for Ceramic Films; 8.5 Freeze Drying; 8.6 Sol-Gel Synthesis; 8.7 Melt Solidification; 8.8 Summary; Problems; References; PART III: CERAMIC PASTE FORMATION-MISE-EN PATE; Chapter 9. Wetting, Deagglomeration, and Adsorption; 9.1 Objectives; 9.2 Wetting of a Powder by a Liquid; 9.3 Deagglomeration; 9.4 Adsorption onto Powder Surfaces. - 9.5 Chemical Stability of a Powder in a Solvent. - Ceramic powder synthesis and processing are two of the most important technologies in chemical engineering and the ceramics-related area of materials science. This book covers both the processing and the synthesis ofceramic powders in great depth and is indeed the only up-to-date, comprehensive source on the subject available.The application of modern scientific and engineering methods to the field of ceramic powder synthesis has resulted in much greater control of properties. Fundamentals of Ceramic Powder Processing and Synthesis presents examples of these modern methods as they
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ISBN | 0125889305
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