Yasuyoshi Tomoe scite author profile

The performance of the selected inhibitors, including thioglycolic acid (TGA), diethylenetriamine (DETA), and naphthene acid imidazolines (IM), on the bare surface of N80 steel and its scaled surface pre-corroded in CO 2 -saturated 1%NaCl solution was investigated by weight-loss method, electrochemical measurements using rotating cylinder electrode and surface analytical methods (SEM, XRD, and EPMA). The results indicate that there is a remarkable difference in inhibition efficiency of inhibitors on the N80 steel with and without precorrosion scale. The synergistic effect between inhibitors and corrosion scale not only depends on the size of inhibitor molecules, but also depends on the interaction of the inhibitor with the corrosion scale. It shows that IM and DETA have a good positive synergistic effect with the corrosion scale formed on N80 steel, although DETA has no inhibition efficiency for bare N80 steel, which can easily enter into the apertures of the corrosion scale, and block the active sites on the metal surface and the diffusion routeways of the reactant so as to depress the corrosion of the substrate metal. While TGA shows excellent inhibition efficiency on bare N80 steel, but it has an antagonistic effect with the corrosion scale although it has a small molecular weight as well as DETA, because TGA can dissolve corrosion scale and break its integrality and protectiveness performance.

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The effect of corrosion product layers on the anodic and cathodic reactions of carbon steel in CO2-saturated mdea solutions at 100°C

Guo

Tomoe

1999

Corrosion Science

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Corrosion of Iron by Iodide-Oxidizing Bacteria Isolated from Brine in an Iodine Production Facility

et al. 2014

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Elemental iodine is produced in Japan from underground brine (fossil salt water). Carbon steel pipes in an iodine production facility at Chiba, Japan, for brine conveyance were found to corrode more rapidly than those in other facilities. The corroding activity of iodide-containing brine from the facility was examined by immersing carbon steel coupons in "native" and "filter-sterilized" brine samples. The dissolution of iron from the coupons immersed in native brine was threefold to fourfold higher than that in the filter-sterilized brine. Denaturing gradient gel electrophoresis analyses revealed that iodide-oxidizing bacteria (IOBs) were predominant in the coupon-containing native brine samples. IOBs were also detected in a corrosion deposit on the inner surface of a corroded pipe. These results strongly suggested the involvement of IOBs in the corrosion of the carbon steel pipes. Of the six bacterial strains isolated from a brine sample, four were capable of oxidizing iodide ion (I(-)) into molecular iodine (I(2)), and these strains were further phylogenetically classified into two groups. The iron-corroding activity of each of the isolates from the two groups was examined. Both strains corroded iron in the presence of potassium iodide in a concentration-dependent manner. This is the first report providing direct evidence that IOBs are involved in iron corrosion. Further, possible mechanisms by which IOBs corrode iron are discussed.

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Electrochemical Behavior of Carbon Steel in Carbon Dioxide-Saturated Diglycolamine Solutions

Guo¹,

Tomoe²

1998

CORROSION

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Yasuyoshi Tomoe

The electrochemical behavior and impedance characteristics of the passive film on carbon steel in nitric acid solutions

Interaction of inhibitors with corrosion scale formed on N80 steel in CO₂‐saturated NaCl solution

The effect of corrosion product layers on the anodic and cathodic reactions of carbon steel in CO2-saturated mdea solutions at 100°C

Corrosion of Iron by Iodide-Oxidizing Bacteria Isolated from Brine in an Iodine Production Facility

Electrochemical Behavior of Carbon Steel in Carbon Dioxide-Saturated Diglycolamine Solutions

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Yasuyoshi Tomoe

The electrochemical behavior and impedance characteristics of the passive film on carbon steel in nitric acid solutions

Interaction of inhibitors with corrosion scale formed on N80 steel in CO2‐saturated NaCl solution

The effect of corrosion product layers on the anodic and cathodic reactions of carbon steel in CO2-saturated mdea solutions at 100°C

Corrosion of Iron by Iodide-Oxidizing Bacteria Isolated from Brine in an Iodine Production Facility

Electrochemical Behavior of Carbon Steel in Carbon Dioxide-Saturated Diglycolamine Solutions

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Interaction of inhibitors with corrosion scale formed on N80 steel in CO₂‐saturated NaCl solution