@article{article_1754511, title={Influence of Perpendicular Magnetic Field Strength on Corrosion Resistance of 316 Stainless Steel in Nitric Acid}, journal={The Eurasia Proceedings of Science Technology Engineering and Mathematics}, volume={34}, pages={253–260}, year={2025}, DOI={10.55549/epstem.1754511}, author={Ben- Abdesselam, Djedjiga and Zazi, Nacer and Hellal, Fatah and Hadj- Ali, Youcef and Chopart, Jean Paul and Korichi, Belkacem}, keywords={Corrosion kinetics, Corrosion resistance, Magnetic field, Nitric acid, Double layer capacity (Cd)}, abstract={Austenitic stainless steels find extensive applications across various industries. The versatility of these steels stems from their impressive combination of properties, such as high resistance to general corrosion, exceptional mechanical characteristics, and cost-effectiveness. This study aims to analyze the impact of perpendicular magnetic field strength in an aerated solution of 68% weight nitric acid on the corrosion kinetics of AISI 316 austenitic stainless steel after one hour of immersion. Studies were conducted on open circuit potential (OCP), polarization and electrochemical impedance spectroscopy (EIS) tests. All tests were performed at a temperature of 22 °C. The results show that increased magnetic field strength decreases open circuit potential (OCP) and transfer resistance (Rt), and increases double layer capacity (Cd), polarization resistance (Rp), and corrosion potential (Ecorr) of AISI 316 stainless steel in a nitric acid solution. The magnetic field intensity influences the parameters of corrosion kinetics of 316 stainless steel in an aerated solution of 68 % weight nitric acid.}, publisher={ISRES Publishing}