Two Diamine Schiff Base as a Corrosion Inhibitors for Carbon Steel in Sulfuric Acid Solution: Electrochemical Assessment and Theoretical Calculation

In this paper, two new bis-Schiff bases corrosion inhibitors, including (NE)-E-1,(NE)-E-2-(N-1,N-2)-(bis(2-hydroxy-5-fluorobenzylidene))propane-1,2-diamine (L1) and (2E,2'E)-2,2'-(pyridine-2,6-diylbis (azanylylidene)) diacetic acid (L2) were synthesized and characterized by IR, UV, MS and H-1-NMR. The purpose of this article is to explore the effect of two corrosion inhibitors on carbon steel in 1 mol/L sulfuric acid. The corrosion inhibition effect of L1 and L2 on carbon steel in sulfuric acid solution was determined by the weightlessness method, electrochemical method, scanning electron microscope, determination of adsorption isotherm and calculation of thermodynamic parameters and quantum chemistry calculations. The results indicated that both inhibitors had good resistance to 1.0 mol.L-1 sulfuric acid corrosion and at 30 degrees C, the corrosion inhibition rates of L1 and L2 were 74.76% and 96.96%, respectively. Scanning electron microscopy, isothermal adsorption equation measurement and quantum chemical calculations indicated that both L1 and L2 were mixed corrosion inhibitors, which can be adsorbed on the surface of carbon steel to form a corrosion inhibitor film. The process of adsorption of Schiff base corrosion inhibitors on carbon steel surface was spontaneous.

Automated summary

Two new bis-Schiff bases corrosion inhibitors were synthesized and characterized, and their corrosion inhibition effects on carbon steel in sulfuric acid were studied. The inhibitors showed good resistance to sulfuric acid corrosion and could form inhibitor films on the surface of carbon steel.