Abstract
Purpose - The aim is to demonstrate corrosion inhibition capabilities of several isoxazolidines, containing hydrophobic substituents and having varying degree of steric congestion around nitrogen.
Design/methodology/approach - A number of isoxazoliclines were prepared. Corrosion inhibition efficiencies of these organic compounds were determined by gravimetric and electrochemical methods, using carbon steel as the substrate metal and 0.5 M H2SO4 at 40-70 degrees C as the corrosive environment. Concentration of inhibitor was varied between 5 and 400 ppm.
Findings - Increase in steric congestion around the nitrogen centre and hydrophobic chain lengths as well as increase in temperature (in the presence of the inhibitor in the higher concentration range 100-400ppm) were found to increase the corrosion inhibition efficiency of the isoxazolidines. Electrochemical measurements corroborated these results. Thermodynamic parameters (Delta G(ads)(0), Delta H-ads(0), Delta S-ads(0)) for the adsorption process and kinetic parameters for the metal dissolution (or hydrogen evolution) reaction were determined.
Originality/value - This is the first time the corrosion inhibition characteristics of isoxazoliclines, an important class of readily accessible compounds, have been evaluated in H2SO4 medium.