CORROSION INHIBITION PERFORMANCE OF ROSEMARY OIL ON CARBON STEEL IN ACID AND SALINE ENVIRONMENTS

The exposure of metals to corrosive fluids have resulted in their deterioration and total collapse, hence, the use of inhibitors to prevent and control corrosion. Inhibitors with weak adsorptive properties and high toxicity are less effective in inhibiting corrosion. This has influenced the use of green organic chemicals from plants as suitable inhibitors for corrosion in metals because they are eco-friendly and possess strong adsoptive properties. Rosemary oil, an extract from rosemary plant is known for its strong adsorption properties on metallic surfaces. Previous studies have reported the inhibition effect of rosemary oil on metals in different corrosive environments. This research aimed to minimise the corrosion in carbon steel using rosemary oil in solutions of citric acid, sulphuric acid and sodium chloride at ambient temperature using weight loss and potentiodynamic polarization techniques. Weight loss technique was carried out for a period of 21 days. The steel samples were immersed in citric acid, sulphuric acid and sodium chloride solutions. After 24 hours, the samples were taken out of the solutions, washed in acetone, rinsed in distilled water and air-dried for about an hour. The samples were re-weighed and re-immersed into the solutions. Potentiodynamic polarisation was carried out through the aid of the potentiostat with potential scans of -1.5 V to +1.75 V at a scan rate of 0.0015 V/s for a duration of 30 minutes. After each scan, the electrodes were polished with silicon carbide paper for easy flow of current. Adsorption of rosemary oil onto the steel surface fitted into the Langmuir model. Inhibition efficiencies of 98 %, 88 % and 78 % were obtained in sodium chloride, citric acid and sulphuric acid solutions which showed that rosemary oil is highly effective. Rosemary oil produced the highest inhibition efficiency in sodium chloride because of its low corrosive nature. Potentiodynamic plots reveal a cathodic-type inhibitor in sulphuric acid because the corrosion potential shifted more towards the negative potential. A mixed- type inhibitor in citric acid and sodium chloride solutions was observed because the corrosion potential shifted towards the positive and negative potentials. The Gibbs energy obtained in citric acid solution, sulphuric acid and sodium chloride solutions were less than -40 KJmol-1. This indicates that the inhibition mechanism of rosemary oil were physically adsorbed on carbon steel surface in the three solutions

Electrochemical control of high carbon steel corrosion using rosemary oil in citric acid medium

The Inhibition efficiency of Rosemary oil (Rosmarinus officinalis) for corrosion control of high carbon steel was done in citric acid medium by weight loss method. The Rosmarinus officinalis was administered in the proportion of 0%, 0.50%, 1.00%, 1.50%, 2.00% and 2.50% concentration. This study unveiled that the inhibition efficiency performed excellently with maximum percentage of 88.3% at room temperature in 0.5M citric acid solution. This has shown the effectiveness of Rosmarinus officinalis inhibitor in corrosion analysis of high carbon steel

Data on the corrosion Inhibition Property of Rosemary on High Carbon Steel in dilute sulphuric acid, citric acid and sodium chloride solution

The data of electrochemical analysis of Rosmarinus officinalis (RO) essential oil effect on high carbon steel (HCS) in three different corrosive environment of sodium chloride, sul- phuric acid and citric acid solution was achieved via weight loss method. Results revealed that Rosmarinus officinalis (RO) organic compound performed excellent well on high carbon steel samples with the optimum inhibition value occurring in NaCl solution with 97.87% after 504 h. The corrosion rate values were significantly high at 0 ml RO organic com- pound for all the three (3) corrosive environments as the time of immersion moves down to 504 h. It was clearly observed that time of immersion and concentrations of RO are the main determinant factor for the excellent adsorption performance of RO organic compound within the range of 504 h. Also, Rosmarinus officinalis (RO) organic compound retarded the severe corrosion rate of high carbon steel samples in other corrosive solutions with aver- age range inhibition values between 40 and 78% after 504 h