Was funded by Anhui Provincial Organic Science Basis Grant (1908085QC112), Innovation and Entrepreneurship Teaching Project of Anhui Agricultural University Pupil (202110364698), and Open Exploration Fund of Biomass Molecular Engineering Center at Anhui Agricultural University. Institutional Evaluation Board Statement: Not applicable. Informed Consent Statement: Not applicable. Information Availability Statement: The information presented in this review are available on request through the corresponding author. Conflicts of Curiosity: The authors declare no conflict of interest.
polymersArticleTowards the Development of Novel Hybrid Composite Steel Pipes: Electrochemical Evaluation of Fiber-Reinforced Polymer Layered Steel SBP-3264 MedChemExpress against CorrosionFatima Ghassan Alabtah 1, , Elsadig Mahdi two , Faysal Fayez Eliyan 3 , Elsadig Eltai two and Marwan KhraishehMechanical Engineering Plan, Texas A M University at Qatar, Doha 23874, Qatar; [email protected] Department of Mechanical and Industrial Engineering, Qatar University, Doha 23874, Qatar; [email protected] (E.M.); [email protected] (E.E.) Engineering Engineering Department, Community University of Qatar, Doha 23874, Qatar; [email protected] Correspondence: [email protected]; Tel.: 974-Citation: Alabtah, F.G.; Mahdi, E.; Eliyan, F.F.; Eltai, E.; Khraisheh, M. In the direction of the Advancement of Novel Hybrid Composite Steel Pipes: Electrochemical Evaluation of Fiber-Reinforced Polymer Layered Steel against Corrosion. Polymers 2021, 13, 3805. https://doi.org/ 10.3390/polym13213805 Academic Editors: Tao-Hsing Chen and Shih-Chen Shi Obtained: 26 August 2021 Accepted: 27 September 2021 Published: three NovemberAbstract: Cholesteryl sulfate Purity & Documentation Corrosion remains a single with the important and most expensive difficulties faced from the steel market. Different fiber-reinforced polymer coating techniques have been proposed to protect metallic piping distribution networks against corrosion. In spite of increasing interest amongst scientific and industrial communities, there is certainly only restricted predictive capability for choosing the optimum composite procedure for a provided corrosive affliction. Within this research, we existing a complete evaluation in the electrochemical habits of two diverse fiber-reinforced polymer composite methods towards the corrosion of carbon steel pipes under a wide assortment of acidic and corrosive answers. The composites have been made from glass and Kevlar fibers with an epoxy resin matrix and have been subjected to corrosive options of 0.five M NaCl, 0.5 M HCl, and 0.five M H2 SO4 . The kinetics from the corrosion reactions had been evaluated making use of potentiodynamic polarization (PDP) exams. Furthermore, electrochemical impedance spectroscopy (EIS) exams had been carried out at open circuit potentials (OCPs). It had been demonstrated the glass fiber-reinforced polymer coating process offered the most effective safety towards corrosion, that has a substantial stability against deterioration when compared with epoxy and Kevlar fiber-reinforced polymer coating programs. Scanning electron microscopy photographs uncovered cracks and deteriorated embedded fibers resulting from acid attack, sustained/assisted by the diffusion of the corrosion species. Search phrases: fiber-reinforced polymer; pipeline; corrosion; steel; composite1. Introduction Corrosion is regarded for being the foremost lead to of failure in pipelines transporting gases and liquids [1]. The primary mandate of pipeline designers is always to deal with the quick boost in requests for power when lowering the price and environmental impacts [2.