Silicate science. Vol. 6, Silicate structures and dispersoid systems /

Silicate Structures and dispersion system.

Bibliographic Details
Main Author: Eitel, W. (Wilhelm), 1891-1979
Corporate Author: ScienceDirect (Online service)
Format: eBook
Language:English
Published: New York ; London : Academic Press, 1975.
Subjects:
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • Front Cover; Silicate Science: Silicate Structures and Dispersoid Systems; Copyright Page; Table of Contents; General Preface; Preface to Volume VI; Acknowledgments; Contents of other Volumes; Section A; CHAPTER 1. SILICATE CRYSTAL STRUCTURE; General Introduction; General Crystallochemical Principles in the Constitution of Silicates; Infrared Absorption Spectroscopy and Silicate Structure Determination; Special Silicate Structures; One-Dimensionally Infinite Tetrahedral Structures (Strunz: Inosilicates); Two-Dimensional Infinite Networks of Tetrahedral Units (Phyllosilicates).
  • Three-Dimensional Infinite Tetrahedral Silicate StructuresCrystallochemical Aspects of Isostructural Relations and Isomorphism of Silicates; Epitaxis Phenomena; Appendix; Section B; CHAPTER 2. GENERAL PRINCIPLES OF CLAY MINERALS; Kandite Minerals; Infrared Spectroscopy of Clay Minerals: General; Smectite Clay Minerals; Hydration Properties of the Minerals of the Montmorillonite Family; Adsorption of Organic Compounds on Smectite Clay Minerals; Ion Exchange Phenomena in Smectite Minerals; Illite (Mica-Like) Clay Minerals; The Glauconite-Celadonite Clay Mineral Group.
  • Fibrous Clay Minerals: Palygorskite-Attapulgite GroupsChloritic Clay Minerals; Vermiculites and Mixed-Layer Clay Minerals; Mixed-Layer Clay Minerals; Section C; CHAPTER 3. SILICATE DISPERSOIDS: INTRODUCTION AND DEFINITIONS; Grain-Size Determination; Dispersion Methods; Qualitative and Quantitative Dispersoid Identification; Silica Sols and Polymerization Phenomena; Electrostatic Charges of Suspended Particles and Flocculation Phenomena; Optical Properties of Dispersoid Systems; Color Phenomena of Dispersoids; Investigation of Dispersoids by X-Ray Diffraction and Corpuscular Radiation Effects.
  • Electron Microscopy of Dispersoid SystemsElectron-Beam Microprobe Methods; Silica and Silicate Hydrogels; Natural Colloid Gels: Their Aging and Crystallization; Diagenetic Reactivity of Silica and Silicates; Polymerization of Silicic Acids: Constitution Problems; Formation of Clay Minerals from Mixed Hydrogels; Lateritization: Bauxite Deposition; Rhythmic Diffusion and Deposition Zonalities in Agates, and Related Phenomena; Adsorption of Foreign Material on Silicate Sediments; Flotation Processes under the Action of Organic Agents; Adsorption of Organic Dystuffs on Silica and Silicates.
  • Mixed Hydrogels of Alumina and SilicaColloid-Physical Theories for the Application of Surface-Active Silicates; The Clay-Water Systems: Plasticity, Workability, and Drying Mechanisms; Hydrostatic Molding; Colloid Physical and Geophysical Problems Involved in Soil Examination; Sedimentological Problems of Oil Well Reservoirs; Electrostatic and Electrokinetic Theories of the Clay-Water Systems; Additional Remarks on the Ion Exchange Properties of Phyllosilicates; Organosilicate Complexes, Preferably of Phyllosilicates.