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The sections in this article are Fundamental Aspects of Uniform Corrosion Introduction to Uniform Corrosion Homogenous Mixed Electrode Determination of the Homogenous Corrosion Rate Cathodic Corrosion Reactions in Acids Kinetic of Cathodic Reactions and Influence of Transport Processes Transport‐controlled Hydrogen Reduction Oxygen Reduction Corrosion in Mineral Acids Corrosion in Organic Solutions Single or Multicomponent Media Corrosion of Various Metals Iron Potential– p H Diagram of Iron Corrosion of Iron in Acids Corrosion of Iron in Neutral and Alkaline Solutions Stainless Steel Corrosion of Stainless Steels in Acids Stainless Steels in Neutral and Alkaline Solutions Nickel Potential– p H Diagram of Nickel Corrosion of Nickel in Acids Corrosion of Nickel in Neutral and Alkaline Solutions Aluminum Potential– p H Diagram of Aluminum Corrosion of Aluminum in Acids Corrosion of Aluminum in Neutral and Alkaline Solutions Magnesium Potential– p H Diagram of Magnesium Corrosion of Magnesium in Acids Corrosion of Magnesium in Neutral and Alkaline Solutions Zinc Potential– p H Diagram of Zinc Corrosion of Zinc in Acids Corrosion of Zinc in Neutral and Alkaline Solutions Copper Potential– p H Diagram of Copper Corrosion of Copper in Acids Corrosion of Copper in Neutral and Alkaline Solutions Titanium Potential– p H Diagram of Titanium Corrosion of Titanium in Acids Corrosion of Titanium in Neutral and Alkaline Solutions
The sections in this article are Fundamental Aspects of Uniform Corrosion Introduction to Uniform Corrosion Homogenous Mixed Electrode Determination of the Homogenous Corrosion Rate Cathodic Corrosion Reactions in Acids Kinetic of Cathodic Reactions and Influence of Transport Processes Transport‐controlled Hydrogen Reduction Oxygen Reduction Corrosion in Mineral Acids Corrosion in Organic Solutions Single or Multicomponent Media Corrosion of Various Metals Iron Potential– p H Diagram of Iron Corrosion of Iron in Acids Corrosion of Iron in Neutral and Alkaline Solutions Stainless Steel Corrosion of Stainless Steels in Acids Stainless Steels in Neutral and Alkaline Solutions Nickel Potential– p H Diagram of Nickel Corrosion of Nickel in Acids Corrosion of Nickel in Neutral and Alkaline Solutions Aluminum Potential– p H Diagram of Aluminum Corrosion of Aluminum in Acids Corrosion of Aluminum in Neutral and Alkaline Solutions Magnesium Potential– p H Diagram of Magnesium Corrosion of Magnesium in Acids Corrosion of Magnesium in Neutral and Alkaline Solutions Zinc Potential– p H Diagram of Zinc Corrosion of Zinc in Acids Corrosion of Zinc in Neutral and Alkaline Solutions Copper Potential– p H Diagram of Copper Corrosion of Copper in Acids Corrosion of Copper in Neutral and Alkaline Solutions Titanium Potential– p H Diagram of Titanium Corrosion of Titanium in Acids Corrosion of Titanium in Neutral and Alkaline Solutions
Der zweite Teil dieses Berichts (Teil I siehe WuK 24 [1973]6; 525–535) behandelt vor allem die Möglichkeiten des Korrosionsschutzes, und zwar mit Inhibitoren, durch elektrochemische Methoden (kathodischer Korrosionsschutz), elektrolytisch abgeschiedene Metallüberzüge (einschließlich der Möglichkeiten ihrer Beeinflussung durch die Abscheidungsbedingungen), Spritz‐ und Aufdampfüberzüge, nichtmetallische anorganische Oberflächenschichten (passivierende Deckschichten wie Anodisierungssschichten u. a., sowie deren Herstellungsmechanismen), und organische Überzüge. In einem abschließenden Teil wird auf die Prüfverfahren eingegangen, und zwar einmal Verfahren zur Prüfung des Korrosionsverhaltens von Werkstoffen in verschiedenen Medien und unter verschiedenen Bedingungen, zum anderen auf die Prüfung der Wirksamkeit verschiedener Korrosionsschutzverfahren. 434 Lit. Hinw.
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