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Electrochemical oxidation and corrosion of metals / Elena P. Grishina and Andrew V. Noskov.

By: Contributor(s): Material type: TextTextSeries: Chemistry research and applications seriesPublisher: New York : Nova Science Publishers, [2010]Description: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781616688264
  • 1616688262
Subject(s): Genre/Form: Additional physical formats: Print version:: Electrochemical oxidation and corrosion of metalsDDC classification:
  • 620.1/623 22
LOC classification:
  • TA462
Online resources:
Contents:
ELECTROCHEMICAL OXIDATIONAND CORROSION OF METALS; CONTENTS; PREFACE; INTRODUCTION; 1. CORROSION AND ELECTROCHEMICALOXIDATION OF SILVER, COPPER AND THEIRALLOYS IN CONCENTRATED AQUEOUSSOLUTIONS OF ELECTROLYTES; 1.1. SILVER -- A CONCENTRATED AQUEOUSSOLUTION OF ELECTROLYTES; 1.1.1. Ag -- H2SO4 System; Corrosion Potential and the Law of Passive Film Growth on Silver in H2SO4; Anodic Oxidation of Silver in H2SO4 Solutions; 1.1.2. Regularities of Film-Formation DuringAnodic Oxidation of Silver in Thiosulfate Solutions; 1.2. CU -- H2SO4 SYSTEM.
Corrosion and Anodic Oxidation of Copperin Concentrated Sulfuric Acid SolutionsAnodic Oxidation of Copper in ConcentratedSulfuric Acid Solutions; 1.3. ANODIC OXIDATION OF SILVERAND COPPER ALLOYS IN CONCENTRATEDSULFURIC ACID SOLUTIONS; 1.3.1. Silver -- Copper Alloys; 1.3.2. Silver -- Palladium Alloy; V=0.002 V s-1; V{601}0.01 V s-1; 2. KINETICS OF PHASE PASSIVATING LAYERSFORMATION ON METALS IN THECONDITIONS OF OHMIC CONTROL. EFFECT OF INSTABILITYOF THE ELECTRODEREACTION PRODUCTS; 2.1. MODIFICATION OF A LAYER-PORE RESISTANCEMODEL FOR INSTABILITY OF ELECTRODEREACTION PRODUCTS.
2.2. THE EXPERIMENTAL TESTING OF MLPRM. CU-H2SO4 SYSTEM2.3. EXPERIMENTAL TESTING MLPRM. AG-H2SO4 SYSTEM; 2.4. EXPERIMENTAL TESTING MLPRM. AG, CU ALLOYS IN H2SO4 SOLUTIONS; 2.5. PHENOMENOLOGICAL THEORY OF THREEDIMENSIONALGROWTH OF POROUSPASSIVATING LAYERS ON METALS; Experimental Testing; 3. FRACTAL GEOMETRY APPROACH AS ACONVENIENT TOOL FOR AN ESTIMATION OFGEOMETRICAL AND ENERGYHETEROGENEITY OF A METAL SURFACE; 3.1. THE CHANGE OF SILVERSURFACE MORPHOLOGY CORRODINGIN SULFURIC ACID SOLUTIONS; Effect of Concentrationand Temperature.
3.2. FRACTAL PROPERTIES OF SILVER SURFACE AFTERELECTROCHEMICAL AND CHEMICAL PROCESSINGIN SULPHUROUS MEDIA3.3. FRACTAL PROPERTIES OF TUNGSTEN AFTERELECTROCHEMICAL PROCESSING INWATER-ORGANIC SOLUTIONS; Water -- Monoethanolamine -- NaCl System; 3.4. FRACTAL NATURE OF A METALSURFACE ENERGY HETEROGENEITY; CONCLUSION; REFERENCES; INDEX.
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eBook eBook e-Library EBSCO Technology Available
Total holds: 0

Includes bibliographical references (pages [76]-81) and index.

Description based on print version record.

English.

ELECTROCHEMICAL OXIDATIONAND CORROSION OF METALS; CONTENTS; PREFACE; INTRODUCTION; 1. CORROSION AND ELECTROCHEMICALOXIDATION OF SILVER, COPPER AND THEIRALLOYS IN CONCENTRATED AQUEOUSSOLUTIONS OF ELECTROLYTES; 1.1. SILVER -- A CONCENTRATED AQUEOUSSOLUTION OF ELECTROLYTES; 1.1.1. Ag -- H2SO4 System; Corrosion Potential and the Law of Passive Film Growth on Silver in H2SO4; Anodic Oxidation of Silver in H2SO4 Solutions; 1.1.2. Regularities of Film-Formation DuringAnodic Oxidation of Silver in Thiosulfate Solutions; 1.2. CU -- H2SO4 SYSTEM.

Corrosion and Anodic Oxidation of Copperin Concentrated Sulfuric Acid SolutionsAnodic Oxidation of Copper in ConcentratedSulfuric Acid Solutions; 1.3. ANODIC OXIDATION OF SILVERAND COPPER ALLOYS IN CONCENTRATEDSULFURIC ACID SOLUTIONS; 1.3.1. Silver -- Copper Alloys; 1.3.2. Silver -- Palladium Alloy; V=0.002 V s-1; V{601}0.01 V s-1; 2. KINETICS OF PHASE PASSIVATING LAYERSFORMATION ON METALS IN THECONDITIONS OF OHMIC CONTROL. EFFECT OF INSTABILITYOF THE ELECTRODEREACTION PRODUCTS; 2.1. MODIFICATION OF A LAYER-PORE RESISTANCEMODEL FOR INSTABILITY OF ELECTRODEREACTION PRODUCTS.

2.2. THE EXPERIMENTAL TESTING OF MLPRM. CU-H2SO4 SYSTEM2.3. EXPERIMENTAL TESTING MLPRM. AG-H2SO4 SYSTEM; 2.4. EXPERIMENTAL TESTING MLPRM. AG, CU ALLOYS IN H2SO4 SOLUTIONS; 2.5. PHENOMENOLOGICAL THEORY OF THREEDIMENSIONALGROWTH OF POROUSPASSIVATING LAYERS ON METALS; Experimental Testing; 3. FRACTAL GEOMETRY APPROACH AS ACONVENIENT TOOL FOR AN ESTIMATION OFGEOMETRICAL AND ENERGYHETEROGENEITY OF A METAL SURFACE; 3.1. THE CHANGE OF SILVERSURFACE MORPHOLOGY CORRODINGIN SULFURIC ACID SOLUTIONS; Effect of Concentrationand Temperature.

3.2. FRACTAL PROPERTIES OF SILVER SURFACE AFTERELECTROCHEMICAL AND CHEMICAL PROCESSINGIN SULPHUROUS MEDIA3.3. FRACTAL PROPERTIES OF TUNGSTEN AFTERELECTROCHEMICAL PROCESSING INWATER-ORGANIC SOLUTIONS; Water -- Monoethanolamine -- NaCl System; 3.4. FRACTAL NATURE OF A METALSURFACE ENERGY HETEROGENEITY; CONCLUSION; REFERENCES; INDEX.

OCLC control number change - WorldCat record variable field(s) change: 072

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