2014
DOI: 10.4067/s0717-97072014000300004
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Effect of Temperature on Corrosion Inhibition of Copper - Nickel Alloy by Tetraethylenepentamine Under Flow Conditions

Abstract: The corrosion of copper -nickel alloy in hydrochloric acid was investigated at different temperatures, inhibitor concentrations, and corrosive solution rotation rates. Weight loss technique was used to evaluate the corrosion rate data. Tetraethylenepentamine was used as organic corrosion inhibitor, while hydrochloric acid was the corrosive solution. Different parameters, such as inhibitor efficiency, activation energy were obtained. Corrosion rate increased with both temperature and acid rotation rate, while i… Show more

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Cited by 20 publications
(8 citation statements)
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“…Corrosion rates were also severely impacted by rising temperatures in the tests with and without the SBs. For the blank sample, enhanced corrosion can be related to the decrease of hydrogen evolution overpotential 31,32 . In contrast, for samples in contact with corrosion inhibitors, increased corrosion rates can be related to desorption, decomposition, and rearrangement of inhibitory molecules, exposing the metallic surface and reducing the inhibition efficiency 33,34 .…”
Section: Weight Loss Measurementsmentioning
confidence: 99%
“…Corrosion rates were also severely impacted by rising temperatures in the tests with and without the SBs. For the blank sample, enhanced corrosion can be related to the decrease of hydrogen evolution overpotential 31,32 . In contrast, for samples in contact with corrosion inhibitors, increased corrosion rates can be related to desorption, decomposition, and rearrangement of inhibitory molecules, exposing the metallic surface and reducing the inhibition efficiency 33,34 .…”
Section: Weight Loss Measurementsmentioning
confidence: 99%
“…These values can be attributed to the kinetic energy reduction for the corrosive molecules, whether without or with inhibitor [37][38]. In this study, to better understand C1010 corrosion reaction behavior, without and with inhibitor, kinetic parameters were calculated according to Arrhenius equation [39]:…”
Section: The Effect Of Temperature On the Corrosion Reactionmentioning
confidence: 99%
“…under an active state which is a consequence of the decrease in the diffusion layer and increased transport of oxygen [22,23]. An increase in mechanical degradation leads to the availability of larger surface areas for attack by the corrosive media [24]. These processes occur simultaneously, significantly enhancing the corrosion and erosion rate, in case when corrosion product/inhibitor film does not adsorb to the surface [25].…”
Section: Effect Of Inhibitor Concentrationmentioning
confidence: 99%