B. P. Galapats scite author profile

Using the model representations for the mechanism of destruction of nonmetallic coatings in chemically active media proposed in previous papers by the authors a description of the osmotic and corrosion effects that influence the destruction of coatings is given. We study the loss of ability of coatings to function due to destruction of cohesion and adhesion.In a previous paper [1] the authors delineated the fundamental stages in the process of wear of nonmetallic coatings in electrochemically active media up to the loss of protective properties. In that paper we also gave computations of the time required for defects (cavities) under the coating to be filled with a water solution of the contacting medium and the geometric dimensions of the corrosion sites at various stages of weal'.In this paper we proposed a mathematical description of the osmotic and corrosion effects at sites under the coating, making it possible to use the results obtained earlier [1] to determine the characteristic points in the wear up to the loss of working capacity of the coating due to destruction of cohesion and adhesion.

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Mathematical description and analysis of the corrosion of metals under lacquer coatings in seawater

Shevchuk¹,

Galapats²,

Шевчук³

1997

Mater Sci

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We propose a mathematical model for the analytic investigation of the processes of corrosion fracture of metals under lacquer coatings in seawater on the basis of an experimentally established dependence of the corrosion rate of a metal without coatings on the concentration of a passivator. It is shown that, for the examined type of coatings, the corrosion rate first linearly increases with time but then, on attainment of a certain level, its subsequent increase is substantially decelerated. If the corrosion rate of the uncoated metal is higher than 0.05 mm/yr, then the rate of corrosion under coatings is lower by at least an order of magnitude.Some model representations of the mechanism of aging and fracture of lacquer coatings in seawater, the corresponding boundary-value problems formulated on the basis of the relevant mathematical model, and analytic-numerical methods for their solution can be found in [1,2]. These results were obtained for small deflections (blisters) of a lacquer film over the corrosion center and an almost linear law of increase in the corrosion rate to a certain fixed value.In these works, we refined the boundary-value problem proposed for the description of the osmotic growth of corrosion centers in the stage of corrosion fracture of a metal under the coating. On the basis of the solution of this problem obtained in terms of the empirical dependence of the rate of corrosion on the uncoated metal surface vs. the concentration of a passivator in seawater, we gave quantitative estimates for the growth rate of the radius of the corrosion center and the rate of fracture processes in the metal under the coating.Seawater contains both sodium and chlorine ions and oxygen. It saturates the coating and penetrates into the uncoated microareas of the metal, which later turn into corrosion centers. In [1], it was discovered that the times for which they are filled with different components of seawater are practically equal and much shorter than the service life of the coating. This is why, in what follows, we can speak about the diffusion of seawater. Water washes out passivating and some other components from the coating and, as a result, they appear in the cavities. The presence of sufficiently large amounts of passivating components in the cavity under the coating protects the metal against corrosion. As soon as these admixtures are dissolved, the molar concentration of pure water in the corrosion center becomes lower than its concentration in seawater (the same is true for its chemical potential). Therefore, even if the cavities are completely filled with water, it penetrates into the centers to equalize the indicated molar concentrations.In course of time, osmosis promotes blistering of the coating film over the corrosion center. As a result, the volume of the center increases. The results of theoretical analysis performed in [1] (and corroborated by the experimental data) show that, for some values of strength and thickness of the film, concentration of the passivator, and linear adhesion on th...

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Effect of contact phenomena on the elastic strain state of electrically conducting bodies

Galapats

Yuzervich

1978

Mater Sci

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B. P. Galapats

A study of the influence of physico-chemical processes in a metal base/nonmetallic coating system on the operational properties of coatings in a chemically active medium

A description and study of high-temperature oxidation of steel articles

A study of the influence of osmotic and corrosion effects on the working capacity of nonmetallic coatings in chemically active media

Mathematical description and analysis of the corrosion of metals under lacquer coatings in seawater

Effect of contact phenomena on the elastic strain state of electrically conducting bodies

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