Abstract
This paper studies the corrosion inhibition performance and mechanism of dextrin (Dxt) and its graft copolymer with caprolactam (Dxt-g-CPL) on J55 steel in 1 M HCl solution. Caprolactam is grafted and copolymerized with dextrin by a chemical synthesis method, to obtain a dextrin graft copolymer corrosion inhibitor. The composition of the synthesized graft copolymer was characterized by FTIR to identify whether the grafting was successful. Through weightlessness, electrochemical impedance spectroscopy (EIS), potentiodynamic polarization curve (TAFEL), scanning electrochemical microscope (SECM), scanning electron microscope (SEM), and contact angle experiments, the graft copolymer to J55 steel in 1 M HCl solution and the corrosion inhibition performance were evaluated. Moreover, we discuss its corrosion inhibition mechanism. The dextrin graft copolymer has good corrosion inhibition performance for J55 in 1 M HCl solution. When the concentration of the corrosion inhibitor increases, the corrosion inhibition efficiency will also increase. At a certain concentration, when the temperature rises, the corrosion inhibition efficiency will gradually decrease. When the concentration is 300 mg/L, it has a better corrosion inhibition effect, and the corrosion inhibition efficiency is 82.38%. Potential polarization studies have shown that Dxt-g-CPL is a mixed corrosion inhibitor, which inhibits both the cathode and the anode of the electrode reaction. SEM, SECM, and contact angle analysis results show that Dxt-g-CPL can significantly inhibit corrosion. Compared with Dxt, Dxt-g-CPL has a better inhibitory effect.
Highlights
J55 steel is a kind of carbon steel
This paper mainly studies the corrosion inhibition effect of Dxt and Dxt-g-CPL as corrosion inhibitors on J55 steel in 1 M HCl medium
The data in the table show that if the change in the corrosion potential is less than 85 mV, Dxt and Dxt-g-CPL can be regarded as mixed corrosion inhibitors
Summary
J55 steel is a kind of carbon steel. It is low cost, has very good performance, and is widely used in various fields of life, including in petrochemical and marine development [1,2]. Among the various methods of inhibiting corrosion, the corrosion inhibitor has a good anticorrosion effect, simple operation, low dosage, quick effect, and relatively low cost. Many natural polymers found in plants are eco-friendly and not easy to pollute the environment They can be used as effective corrosion inhibitors. Many natural polysaccharides and their modified polymers are non-toxic, biodegradable, and have multiple adsorption sites, making their adsorption performance stronger than monomers. They can be used as corrosion inhibitors [22] and coating materials [23]. This paper mainly studies the corrosion inhibition effect of Dxt and Dxt-g-CPL as corrosion inhibitors on J55 steel in 1 M HCl medium. The corrosion inhibition mechanism of Dxt and Dxt-g-CPL on J55 steel in acid medium is analyzed
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