CO and trans-cinnamaldehyde as corrosion inhibitors of 1825, L80-13Cr and N80 alloys in concentrated HCl solutions at high pressure and temperature

In this paper, corrosion inhibition by chemisorbed CO, at high pressure and temperature, on a high-Ni ferrous alloy (Incoloy 825) and two high-Fe alloys (13Cr-L80 (Uniloy-420) and N80 steels) in very aggressive conditions (15% (w/w) HCl solution) is described. CO was either directly dosed into the e...

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Veröffentlicht in:	Electrochimica acta 2013-05, Vol.97, p.1-9
Hauptverfasser:	Cabello, Gema, Funkhouser Gary, P, Cassidy, Juanita, Kiser Chad, E, Lane, Jim, Cuesta, Angel
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloys Carbon monoxide Corrosion Corrosion inhibitors Electrolytes High strength steels Inhibition Inhibitors Martensitic stainless steels Medium carbon steels Nickel base alloys Superalloys Thin films
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description	In this paper, corrosion inhibition by chemisorbed CO, at high pressure and temperature, on a high-Ni ferrous alloy (Incoloy 825) and two high-Fe alloys (13Cr-L80 (Uniloy-420) and N80 steels) in very aggressive conditions (15% (w/w) HCl solution) is described. CO was either directly dosed into the electrolyte, or produced by dehydration of formic acid. It is shown that CO is a very good corrosion inhibitor, the inhibiting effect being even higher at high pressure and temperature than at normal pressure and room temperature. The effect of combining CO with a common acid corrosion inhibitor, trans-cinnamaldehyde (TCA), at high pressure and temperature, was also studied. Under these conditions, the polymerization of TCA may be favored, leading to a thin film on the metal surface that appears to serve as a barrier to corrosion. It was found that, when CO is used in combination with TCA, the inhibiting effect of the latter is considerably intensified.
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CO was either directly dosed into the electrolyte, or produced by dehydration of formic acid. It is shown that CO is a very good corrosion inhibitor, the inhibiting effect being even higher at high pressure and temperature than at normal pressure and room temperature. The effect of combining CO with a common acid corrosion inhibitor, trans-cinnamaldehyde (TCA), at high pressure and temperature, was also studied. Under these conditions, the polymerization of TCA may be favored, leading to a thin film on the metal surface that appears to serve as a barrier to corrosion. 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CO was either directly dosed into the electrolyte, or produced by dehydration of formic acid. It is shown that CO is a very good corrosion inhibitor, the inhibiting effect being even higher at high pressure and temperature than at normal pressure and room temperature. The effect of combining CO with a common acid corrosion inhibitor, trans-cinnamaldehyde (TCA), at high pressure and temperature, was also studied. Under these conditions, the polymerization of TCA may be favored, leading to a thin film on the metal surface that appears to serve as a barrier to corrosion. 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subjects	Alloys Carbon monoxide Corrosion Corrosion inhibitors Electrolytes High strength steels Inhibition Inhibitors Martensitic stainless steels Medium carbon steels Nickel base alloys Superalloys Thin films
title	CO and trans-cinnamaldehyde as corrosion inhibitors of 1825, L80-13Cr and N80 alloys in concentrated HCl solutions at high pressure and temperature
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