Wave oscillations in colloid oxyhydrates / / Yuri I. Sucharev |
Autore | Sukharev I͡U. I (I͡Uriĭ Ivanovich) |
Pubbl/distr/stampa | Stafa-Zuerich, Switzerland ; ; Enfield, New Hampshire : , : Trans Tech Publications, , [2010] |
Descrizione fisica | 1 online resource (508 p.) |
Disciplina | 549/.53 |
Collana | Materials science foundations |
Soggetto topico |
Colloids
Metallic oxides Hydroxides Oscillating chemical reactions Oscillations |
Soggetto genere / forma | Electronic books. |
ISBN | 3-03813-447-3 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Wave Oscillations in Colloid Oxyhydrates; Preface; Table of Contents; Summary; Table of Contents; 1. Periodical Pulsation Ionic Flow Properties of Oxo-Olic Complexes of Zirconium and Silicium; 1.1 Polymerization of the Hydrated Particles of Zirconium Oxyhydrate; 1.2 Emission-Wave Duality of Behavior of the Periodical Processes in the D- and F-Elements' Oxyhydrates. 1.3 Periodicity of the Efficient Diffusion Coefficients; 1.4 Quantization of the Pacemakers' Radiuses in Oxyhydrate Gels; 1.5 Bifurcation of the Pacemakers' Radius Doubling in Gel Oxyhydrate Systems
1.6 Extensional Dilatancy and Dimensions of the Pacemakers1.7 The Periodical State Isotherm; Abstract 1.1; 1.8 other Forms and Types of Oscillatory Motions in Oxyhydrate Systems; Abstract 1.2. Instrumental Support; 2. Behavior of Zirconium Oxyhydrate Gels Affected by the Spontaneous Pulsating Electrical Currents; 2.1 Theory; 2.2 Synchronization of the Periodical Oxyhydrate Systems; 2.3 Mathematical Modeling Problem; 2.4 Connections between Certain Self-Organization Parameters; 2.5 Conclusions 3. Zirconium Oxyhydrate Gels with Specifically Repeated Pulsation Macromolecules' Organizations: the Experimental Aspect3.1 Some of the TGM's Experimental Results; 3.2 Oxyhydrate Clusters Structuring in Non-Equilibrium Conditions; 3.3 the Way the Ageing Time Affects the Sorption Properties of the Zirconium Oxyhydrate; 3.4 Conclusions; 4. Modeling of the Oxyhydrate Gels' Shaping in an Active Excitable Medium. the Phase Transition Operator in Gels' Oxyhydrates (the Liesegang Operator) 4.1 Modeling of Autowave Shaping Processes in D- and F- Elements' Oxyhydrate Gels. the Simplest Mathematical Model of the Reaction-Diffusion Type4.2 Studies of a Modeled Oxyhydrate System; 4.3 Modeling of the Gel Shaping in an Active Excitable Medium by Means of the Molecular Dynamics Methods and the Monte Carlo Method; 4.4 Coulomb Diffusion Model; 5. Liesegang Operator; 4.5 Conclusions; 5.1 Liesegang Operator as a Reflection of the Gel Polymer Systems' Oscillatory Properties. Introduction of the Liesegang Operator; 5.2 Studying a Highly Nonlinear Diffusion Equation; Abstract 5.1 Theorems Abstract 5.2 Gel's Formation Stationary Problem5.3 Simplified Notation for the Liesegang Operator; 5.4 Hydrodynamic Approach; 5.5 Liesegang Operator and some Experimental Data; 5.6 Conclusions; 6. Liesegang Operator as a Consequence of the Ionic Molecular Motion inside the Lenard-Jones Potential; 6.1 Single-Particle Problem. Cluster's Motion in the Field of the Lenard-Jones Potential; 6.2 Cluster Motion in the Lenard-Jones Potential; 6.3 Experimental Detection of the Current Surges' Periodical Toroid Conformations in the Gel Oxyhydrate Systems, the Structural Self-Organization Stages Abstract 6.1 Formative Characteristics of Zirconium Oxyhydrate Conformers |
Record Nr. | UNINA-9910465320703321 |
Sukharev I͡U. I (I͡Uriĭ Ivanovich) | ||
Stafa-Zuerich, Switzerland ; ; Enfield, New Hampshire : , : Trans Tech Publications, , [2010] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Wave oscillations in colloid oxyhydrates / / Yuri I. Sucharev |
Autore | Sukharev I͡U. I (I͡Uriĭ Ivanovich) |
Pubbl/distr/stampa | Stafa-Zuerich, Switzerland ; ; Enfield, New Hampshire : , : Trans Tech Publications, , [2010] |
Descrizione fisica | 1 online resource (508 p.) |
Disciplina | 549/.53 |
Collana | Materials science foundations |
Soggetto topico |
Colloids
Metallic oxides Hydroxides Oscillating chemical reactions Oscillations |
ISBN | 3-03813-447-3 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Wave Oscillations in Colloid Oxyhydrates; Preface; Table of Contents; Summary; Table of Contents; 1. Periodical Pulsation Ionic Flow Properties of Oxo-Olic Complexes of Zirconium and Silicium; 1.1 Polymerization of the Hydrated Particles of Zirconium Oxyhydrate; 1.2 Emission-Wave Duality of Behavior of the Periodical Processes in the D- and F-Elements' Oxyhydrates. 1.3 Periodicity of the Efficient Diffusion Coefficients; 1.4 Quantization of the Pacemakers' Radiuses in Oxyhydrate Gels; 1.5 Bifurcation of the Pacemakers' Radius Doubling in Gel Oxyhydrate Systems
1.6 Extensional Dilatancy and Dimensions of the Pacemakers1.7 The Periodical State Isotherm; Abstract 1.1; 1.8 other Forms and Types of Oscillatory Motions in Oxyhydrate Systems; Abstract 1.2. Instrumental Support; 2. Behavior of Zirconium Oxyhydrate Gels Affected by the Spontaneous Pulsating Electrical Currents; 2.1 Theory; 2.2 Synchronization of the Periodical Oxyhydrate Systems; 2.3 Mathematical Modeling Problem; 2.4 Connections between Certain Self-Organization Parameters; 2.5 Conclusions 3. Zirconium Oxyhydrate Gels with Specifically Repeated Pulsation Macromolecules' Organizations: the Experimental Aspect3.1 Some of the TGM's Experimental Results; 3.2 Oxyhydrate Clusters Structuring in Non-Equilibrium Conditions; 3.3 the Way the Ageing Time Affects the Sorption Properties of the Zirconium Oxyhydrate; 3.4 Conclusions; 4. Modeling of the Oxyhydrate Gels' Shaping in an Active Excitable Medium. the Phase Transition Operator in Gels' Oxyhydrates (the Liesegang Operator) 4.1 Modeling of Autowave Shaping Processes in D- and F- Elements' Oxyhydrate Gels. the Simplest Mathematical Model of the Reaction-Diffusion Type4.2 Studies of a Modeled Oxyhydrate System; 4.3 Modeling of the Gel Shaping in an Active Excitable Medium by Means of the Molecular Dynamics Methods and the Monte Carlo Method; 4.4 Coulomb Diffusion Model; 5. Liesegang Operator; 4.5 Conclusions; 5.1 Liesegang Operator as a Reflection of the Gel Polymer Systems' Oscillatory Properties. Introduction of the Liesegang Operator; 5.2 Studying a Highly Nonlinear Diffusion Equation; Abstract 5.1 Theorems Abstract 5.2 Gel's Formation Stationary Problem5.3 Simplified Notation for the Liesegang Operator; 5.4 Hydrodynamic Approach; 5.5 Liesegang Operator and some Experimental Data; 5.6 Conclusions; 6. Liesegang Operator as a Consequence of the Ionic Molecular Motion inside the Lenard-Jones Potential; 6.1 Single-Particle Problem. Cluster's Motion in the Field of the Lenard-Jones Potential; 6.2 Cluster Motion in the Lenard-Jones Potential; 6.3 Experimental Detection of the Current Surges' Periodical Toroid Conformations in the Gel Oxyhydrate Systems, the Structural Self-Organization Stages Abstract 6.1 Formative Characteristics of Zirconium Oxyhydrate Conformers |
Record Nr. | UNINA-9910786508803321 |
Sukharev I͡U. I (I͡Uriĭ Ivanovich) | ||
Stafa-Zuerich, Switzerland ; ; Enfield, New Hampshire : , : Trans Tech Publications, , [2010] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Wave oscillations in colloid oxyhydrates / / Yuri I. Sucharev |
Autore | Sukharev I͡U. I (I͡Uriĭ Ivanovich) |
Pubbl/distr/stampa | Stafa-Zuerich, Switzerland ; ; Enfield, New Hampshire : , : Trans Tech Publications, , [2010] |
Descrizione fisica | 1 online resource (508 p.) |
Disciplina | 549/.53 |
Collana | Materials science foundations |
Soggetto topico |
Colloids
Metallic oxides Hydroxides Oscillating chemical reactions Oscillations |
ISBN | 3-03813-447-3 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Wave Oscillations in Colloid Oxyhydrates; Preface; Table of Contents; Summary; Table of Contents; 1. Periodical Pulsation Ionic Flow Properties of Oxo-Olic Complexes of Zirconium and Silicium; 1.1 Polymerization of the Hydrated Particles of Zirconium Oxyhydrate; 1.2 Emission-Wave Duality of Behavior of the Periodical Processes in the D- and F-Elements' Oxyhydrates. 1.3 Periodicity of the Efficient Diffusion Coefficients; 1.4 Quantization of the Pacemakers' Radiuses in Oxyhydrate Gels; 1.5 Bifurcation of the Pacemakers' Radius Doubling in Gel Oxyhydrate Systems
1.6 Extensional Dilatancy and Dimensions of the Pacemakers1.7 The Periodical State Isotherm; Abstract 1.1; 1.8 other Forms and Types of Oscillatory Motions in Oxyhydrate Systems; Abstract 1.2. Instrumental Support; 2. Behavior of Zirconium Oxyhydrate Gels Affected by the Spontaneous Pulsating Electrical Currents; 2.1 Theory; 2.2 Synchronization of the Periodical Oxyhydrate Systems; 2.3 Mathematical Modeling Problem; 2.4 Connections between Certain Self-Organization Parameters; 2.5 Conclusions 3. Zirconium Oxyhydrate Gels with Specifically Repeated Pulsation Macromolecules' Organizations: the Experimental Aspect3.1 Some of the TGM's Experimental Results; 3.2 Oxyhydrate Clusters Structuring in Non-Equilibrium Conditions; 3.3 the Way the Ageing Time Affects the Sorption Properties of the Zirconium Oxyhydrate; 3.4 Conclusions; 4. Modeling of the Oxyhydrate Gels' Shaping in an Active Excitable Medium. the Phase Transition Operator in Gels' Oxyhydrates (the Liesegang Operator) 4.1 Modeling of Autowave Shaping Processes in D- and F- Elements' Oxyhydrate Gels. the Simplest Mathematical Model of the Reaction-Diffusion Type4.2 Studies of a Modeled Oxyhydrate System; 4.3 Modeling of the Gel Shaping in an Active Excitable Medium by Means of the Molecular Dynamics Methods and the Monte Carlo Method; 4.4 Coulomb Diffusion Model; 5. Liesegang Operator; 4.5 Conclusions; 5.1 Liesegang Operator as a Reflection of the Gel Polymer Systems' Oscillatory Properties. Introduction of the Liesegang Operator; 5.2 Studying a Highly Nonlinear Diffusion Equation; Abstract 5.1 Theorems Abstract 5.2 Gel's Formation Stationary Problem5.3 Simplified Notation for the Liesegang Operator; 5.4 Hydrodynamic Approach; 5.5 Liesegang Operator and some Experimental Data; 5.6 Conclusions; 6. Liesegang Operator as a Consequence of the Ionic Molecular Motion inside the Lenard-Jones Potential; 6.1 Single-Particle Problem. Cluster's Motion in the Field of the Lenard-Jones Potential; 6.2 Cluster Motion in the Lenard-Jones Potential; 6.3 Experimental Detection of the Current Surges' Periodical Toroid Conformations in the Gel Oxyhydrate Systems, the Structural Self-Organization Stages Abstract 6.1 Formative Characteristics of Zirconium Oxyhydrate Conformers |
Record Nr. | UNINA-9910821362003321 |
Sukharev I͡U. I (I͡Uriĭ Ivanovich) | ||
Stafa-Zuerich, Switzerland ; ; Enfield, New Hampshire : , : Trans Tech Publications, , [2010] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|