The organic compounds as inhibitors of fungal corrosion of steel: quantum chemical modeling of inhibitor protection

Автор: Sikachina Andrei

Журнал: Бюллетень науки и практики @bulletennauki

Статья в выпуске: 4 (17), 2017 года.

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In a published scientific article presents modeled using quantum chemistry package HyperChem version 8.0.7 using semiempirical method ZINDO/1 the process of adsorption of organic sulfur-containing compounds such as iron (available in steel St3S (Poland) in the amount of 97%). Compare and explain the protective effects of corrosion depending on the extent of cathodic polarization of the metal model specimen. This way with high accuracy reflects the process of corrosion protection with mycological content (Penicillium chrysogenum cells) by the chemisorption of organic compounds on the metal surface with the formation of complex compounds. Inhibitor protection carried out with a sample of the metal cadmium plating protected with a current density of 4 A/dm2. As a comparison, the properties and characteristics of some complexes responsible for metal protection, will be referred to secondary data obtained from protected metal cadmium plating sample 1-3a/dm2. In the research process were obtained and analyzed: the charges on the heteroatoms, the charge density (1 atom of iron), the composition of the resulting compounds Fe a ←[SMY], as well as energy diagrams in the formation of the adsorption complex of the studied molecules. Absolute linear graph type “Z% - Feρq”, so the charge density on the iron is a powerful predictive parameter in the mission of inhibitor (at various concentrations) to protect steel from corrosion, without the use of a screening method. Knowledge of the partial effective charges of helping to determine the most powerful adsorption centers belonging to a specific molecule inhibitor. Changing values frontier orbitals helps to assess the stability of the adsorption complex inhibitor compounds with metal atoms.

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Hyperchem, corrosion, грибы penicillium chrysogenum, penicillium chrysogenum, adsorption, st3s steel, partial effective charges

Короткий адрес: https://sciup.org/14111532

IDR: 14111532 | DOI: 10.5281/zenodo.546286

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