Reaction Diffusion and Solid State Chemical Kinetics.

Intro -- Reaction Diffusion and Solid State Chemical Kinetics -- Summary -- Preface -- Introductory Note -- Table of Contents -- Table of Contents -- 1. Formation of a Chemical Compound Layer at the Interface of Two Elementary Substances -- 1.1 Description of the Kinetics of Solid-State Heterogeneous Reactions -- 1.2 Reaction Diffusion -- 1.3 Growth of the Apbq Layer at the Expense of Diffusion Ofcomponent B -- 1.4 Growth of the ApBq Layer at the Expense of Diffusion of Components A and B -- 1.5 Linear Growth of the Cu6Sn5 Layer in the Copper-Tin Reaction Couple -- 1.6 Parabolic Growth of the AlSb Layer in the Aluminium-Antimonydiffusion Couple -- 1.7 Linear-Parabolic Growth of the SiO2 Layer between Silicon and Oxygen -- 1.8 Growth Kinetics of the NiBi3 Layer at the Nickel-Bismuth Interface -- 1.9 Interconnection between the Reaction- and Self-Diffusioncoefficient of the Components of a Chemical Compound -- 1.10 Single Compound Layer: Short Conclusions -- 2. Growth Kinetics of Two Compound Layers between Elementary Substances -- 2.1 Partial Chemical Reactions at Phase Interfaces -- 2.2 A System of Differential Equations Describing the Rates of Formation of Two Chemical Compound Layers -- 2.3 Initial Linear Growth of the ApBq and ArBs Layers -- 2.4 Minimal Thickness of the ArBs Layer Necessary for the ApBq Layer to Occur -- 2.5 Non-Linear Growth of the ApBq Layer -- 2.6 Effect of the Critical Thickness of the ApBq Layer with Regard to Component A on the Process of Growth of the ArBs Layer -- 2.7 Paralinear Growth Kinetics of Two Compound Layers -- 2.8 Diffusion Controlled Growth of the ApBq and ArBs Layers -- 2.9 Nibi Layer: Missing or too Thin? -- 2.10 Two Compound Layers: Short Conclusions -- 3. Occurrence of Multiple Compound Layers at the a-b Interface -- 3. Occurrence of Multiple Compound Layers at the a-b interface.

3.1 Chemical Reactions at Phase Interfaces in a Multiphase Binary System -- 3.2 A System of Differential Equations Describing the Growth Process of Three Chemical Compound Layers between Elementary Substances A and B -- 3.3 Initial Linear Growth of Three Compound Layers -- 3.4 Transition from Linear to Non-Linear Layer-Growth Kinetics -- 3.5 Critical Values of Compound-Layer Thicknesses and their Influence on Layer-Growth Kinetics -- 3.6 Diffusional Stage of Formation of Compound Layers -- 3.7 Sequence of Compound-Layer Formation at the A-B Interface -- 3.8 Formation of Intermetallic Layers in Ni-Zn and Co-Zn Diffusion Couples -- 3.9 Multiple Compound Layers: Short Conclusions -- 4. Growth Kinetics of the same Chemical Compound Layer in Various Reaction Couples of a Multiphase Binary System -- 4.1. Growth of the ArBs Layer in the A-B Reaction Couple -- 4.2 Growth of the ArBs Layer in the ApBq-B Reaction Couple -- 4.3 Growth of the ArBs Layer in the ApBq -AlBn Reaction Couple -- 4.4 Comparison of the Growth Rates of the ArBs Layer in Various Reaction Couples of the A-B Multiphase Binary System -- 4.5 Duplex Structure of the ArBs Layer -- 5. Reaction-Diffusion Kinetics in Solid-Liquid and Solid-Gas Systems -- 4.6 Growth of the Chemical Compound Layer in Various Reaction Couples: Short Conclusions -- 5.1 Main Relationships Governing Dissolution of Solids in Liquids -- 5.2 Experimental Investigation of the Dissolution Process of a Solid in a Liquid -- 5.3 Growth Kinetics of the Chemical Compound Layer under Conditions of its Simultaneous Dissolution in the Liquid Phase -- 5.4 Growth Kinetics of Intermetallic Layers at the Transition Metal-Liquid Aluminum Interface -- 5.5 Interfacial Interaction of Nickel and Cobalt with Liquid Pb-Free Soldering Alloys -- 5.6 Peculiarities of Kinetic Dependences in Solid-Gas Systems.

5.7 Reaction-Diffusion Kinetics in Solid-Liquid and Solid-Gas Systems: Short Conclusions -- Concluding Remarks -- References -- Keyword Index.

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