Organic protective films

Rupture of Organic Protective Films This condition differs from other causes of localized corrosion since these protective films are nonconductors and, as such, do not support the cathodic reaction. After the rupture in the coating, corrosion may progress under the coating by crevice corrosion mechanisms, resulting in further damage. 

Metal deactivator To form inactive protective films on metal surfaces which otherwise might catalyse oxidation and corrosion reactions Trialkyl and triaryl phosphites, organic dihydroxyphosphines, some active sulphur compounds, diamines in lubricating greases, mercaptobenzothiazole and phosphites... 

Lithium metal is chemically very active and reacts thermodynamically with any organic electrolyte. However, in practice, lithium metal can be dissolved and deposited electrochemically in some organic electrolytes [5]. It is generally believed that a protective film is formed on the lithium anode which prevents further reaction [6, 7]. This film strongly affects the lithium cycling efficiency. 

Figure 19. (1) Oxidized polypyrrole (PPy) film electrogenented on a steel electrode. (2) A tape was fastened to the dry polypyrrole film (A). B is doublesided tape and C is a protective sheet of paper. (3) The bilayer device with a protective film is removed from the electrode. (4) The protective sheet is peeled off and the bilayer is ready to work. (Reprinted from Handbook of Organic Conductive Molecules ami Polymers, H.S. Nalwa, ed.,Vol. 4,1997, Figs. 10.13, 10.15a, 10.18, 10.36. Reproduced with permission of John Wiley Sons, Ltd., Chichester. UK.)...

The corrosion resistance of lithium electrodes in contact with aprotic organic solvents is due to a particular protective film forming on the electrode surface when it first comes in contact witfi tfie solvent, preventing further interaction of the metal with the solvent. This film thus leads to a certain passivation of lithium, which, however, has the special feature of being efiective only while no current passes through the external circuit. The passive film does not prevent any of the current flow associated with the basic current-generating electrode reaction. The film contains insoluble lithium compounds (oxide, chloride) and products of solvent degradation. Its detailed chemical composition and physicochemical properties depend on the composition of the electrolyte solution and on the various impurity levels in this solution. 

Polar organic compounds present in fuel can provide a protective, film-like layer on iron and steel surfaces. This film helps prevent water from reaching the metal surface to initiate corrosion in fuel storage and transportation equipment. 

Active anticorrosive pigments inhibit one or both of the two electrochemical partial reactions. The protective action is located at the interface between the substrate and the primer. Water that has diffused into the binder dissolves soluble anticorrosive components (e.g., phosphate, borate, or organic anions) out of the pigments and transports them to the metal surface where they react and stop corrosion. The oxide film already present on the iron is thereby strengthened and sometimes chemically modified. Any damaged areas are repaired with the aid of the active substance. Inhibition by formation of a protective film is the most important mode of action of the commoner anticorrosive pigments. 

The solid films on the air-water interface, while fundamentally interesting, do not seem to have any obvious potential practical applications. On the other hand, the importance of organic films on solid substrates cannot be overestimated. Apart from applications in electronics, optics, protective coatings, etc., organized organic thin films are an excellent model system for... 

Corrosion inhibitor - corrosion inhibitors are chemicals which are added to the electrolyte or a gas phase (gas phase inhibitors) which slow down the - kinetics of the corrosion process. Both partial reactions of the corrosion process may be inhibited, the anodic metal dissolution and/or the cathodic reduction of a redox-system [i]. In many cases organic chemicals or compounds after their reaction in solution are adsorbed at the metal surface and block the reactive centers. They may also form layers with metal cations, thus growing a protective film at the surface like anodic oxide films in case of passivity. Benzo-triazole is an example for the inhibition of copper cor-... 

Coating organic polymer films with lecithin can improve the release properties of the film from the crimp jaws of the automated packaging machine (441). In analytical equipment, lecithin is used to improve the wettability of the contact surface, which enables the solvent to be presented uniformly for analysis (442). Incorporation of lecithin in a masking application can reduce bubble formation and improve the uniformity of the apphcation (443). And finally, lecithin can be used as a protective coating for a painted surface such as found on automobiles. Once applied, it facilitates the removal of insects and debris. The coating is resistant to rain and washing away (444). 

The Verein Deutscher Ingenieure (VDI) 2539 [15] relates to the surface protection coatings with organic materials. It deals exclusively with the testing of finished surface protective films made from organic materials and in this, only nondestructive testing procedures are described. The composition, properties and suitability of the protective material do not fall within these guidelines. 

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