Description
Foreword Introduction: On the concept of polymineral-metasomatic crystallogenesis Chapter 1: Replacement of monocrystals 1.1. Natural and experimental products of replacement 1.2. Technique, terms and experimental results 1.3. Structural-morphological classification of replacement products 1.4. Genetic nature of replacement products Chapter 2: Joint growth of crystals of different phases 2.1. Growth and dissolution in supercooled solutions 2.2. Physico-chemical model Chapter 3: Mixed crystal formation in solutions 3.1. The specificity of the process 3.2. Substance balance and replacement mechanisms 3.3. Physico-chemical model 3.4. Morphological and kinetic phenomena Chapter 4: Physico-chemical analysis of the metasomatic crystallogenesis 4.1. Some general introductions 4.2. Isothermal replacement in ternary systems 4.3. Isothermal replacement in polycomponent systems and formation of poikilitic crystals 4.4. Polythermal processes 4.5. On the generality and distinction of the processes in the systems with isomorphic and non-isomorphic components 4.6. To the determination of the volume effect of a reaction Chapter 5: Metasomatic transformation of aggregates 5.1. On the replacement and growth of monocrystals at aggregate transformations 5.2. Genetic model of rapakivi-type structures 5.3. Recrystallisation of polymineral aggregates Chapter 6: Epitaxy and quasi-epitaxy in solutions 6.1. Principal phenomena 6.2. Technique 6.3. Laws of epitaxy on a growing and dissolving substrate 6.4. Laws of orientation of CaCO3 microcrystals at the adhesion 6.5. Model of formation of epitaxial and quasi-epitaxial textures Chapter 7: Crystal habit origin 7.1. Crystal habit at a stationary growth 7.2. Crystal habit at a non-stationary growth 7.3. Laws of formation of fluorite crystal habit 7.4. Structural-chemical model of crystal habit formation Conclusion: On the interconnection of crystallogenesis and mineralogy. References




