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Ogata, H., & Habazaki, H. (2017). Influence of metallic powder contents on corrosion resistance of galvanized steel with metal powder-containing organic coatings for automobile fuel tanks. ISIJ International, 57(12), 2207-2213.Search in Google Scholar
Huang, J., Yin, W., Li, P., Bu, H., & Wu, J. (2020). Nitrate mediated biotic zero valent iron corrosion for enhanced cd(ii) removal. Science of The Total Environment, 744, 140715.Search in Google Scholar
A, L. X., B, X. X., & A, D. W. (2019). Initial dissolved oxygen-adjusted electrochemical generation of sulfate green rust for cadmium removal using a closed-atmosphere fe–electrocoagulation system. Chemical Engineering Journal, 359, 1411-1418.Search in Google Scholar
Bandaru, S. R. S., Roy, A., Gadgil, A. J., & Genuchten, C. M. V. (2020). Long-term electrode behavior during treatment of arsenic contaminated groundwater by a pilot-scale iron electrocoagulation system. Water Research, 175, 115668.Search in Google Scholar
Furlan, P. Y., Jaravata, E. J., Furlan, A. Y., & Kahl, P. (2023). Will it rust? a set of simple demonstrations illustrating iron corrosion prevention strategies at sea. Journal of Chemical Education.Search in Google Scholar
Dell’Aglio, E., Plattner, S. H., Sammartino, M. P., Visco, G., & Campanella, L. (2019). Dellaglio e. (2016) - iron stains on paper. can electrophoretic removal become an effective alternative to chemical cleaning (sm).pdf. Natural Product Research, 33(7), 1026-1033.Search in Google Scholar
Omar, K. A. S. R. (2020). Novel diglycolic acid-based deep eutectic solvents and their applications as a rust remover. Journal of Molecular Liquids, 312(1).Search in Google Scholar
Wang, L., Luo, Z., Chelme-Ayala, P., Wei, J., & Wu, Z. (2020). The removal of cu(ii)–edta chelates using green rust adsorption combined with ferrite formation process. Journal of Environmental Management, 279(29), 111516.Search in Google Scholar
Xie, D., Chen, H., Yin, S., Wang, F., & Ai, S. (2020). Effect of different laser energy densities on the corrosion resistance of aluminum alloys. Anti-Corrosion Methods and Materials, ahead-of-print(ahead-of-print).Search in Google Scholar
Khew, S. Y., Tan, C. F., Yan, H., Lin, S., Thian, E. S., & Zhou, R., et al. (2018). Nanosecond laser ablation for enhanced adhesion of cuo nanowires on copper substrate and its application for oil-water separation. Applied Surface ence, 465(JAN.28), 995-1002.Search in Google Scholar
Carvalho, L., Pacquentin, W., Tabarant, M., Semerok, A., & Maskrot, H. (2020). Metal decontamination by high repetition rate nanosecond fiber laser: application to oxidized and eu-contaminated stainless steel. Applied Surface Science, 526, 146654-.Search in Google Scholar
Zhang, Z., Zhang, J., Wang, Y., Liang, H., Liu, Y., & Zhao, S., et al. (2017). Surface cleaning of hot-rolled sheet steel by laser ablation of oxide layer using a 100-ns high-repetition frequency pulsed laser. Optical Engineering, 56(11), 116114.1-116114.8.Search in Google Scholar
Zhang, K., Chen, Y., Gui, H., Li, D., & Li, Z. (2018). Identification of the deviation of seam tracking and weld cross type for the derusting of ship hulls using a wall-climbing robot based on three-line laser structural light. Journal of Manufacturing Processes, 35(OCT.), 295-306.Search in Google Scholar
Sanchez, T., Kurchavova, E., Shkirskiy, V., Swiatowska, J., & Volovitch, P. (2021). Detection and quantification of defect evolution at buried metal-oxide-polymer interface on rough substrate by local electrochemical impedance mapping. Electrochimica Acta(388-).Search in Google Scholar
Lu, Y., Ding, Y., Wang, G., Yang, L. J., & Guo, B. (2020). Ultraviolet laser cleaning and surface characterization of ah36 steel for rust removal. Journal of Laser Applications, 32(3), 032023.Search in Google Scholar
Xie, X., Huang, Q., Long, J., Ren, Q., & Liu, S. (2019). A new monitoring method for metal rust removal states in pulsed laser derusting via acoustic emission techniques. Journal of Materials Processing Technology, 275, 116321.Search in Google Scholar
Katsamenis, I., Doulamis, N., Doulamis, A., Protopapadakis, E., & Voulodimos, A. (2022). Simultaneous precise localization and classification of metal rust defects for robotic-driven maintenance and prefabrication using residual attention u-net. Automation in Construction, 137, 104182-.Search in Google Scholar
Guo, S., Si, R., Dai, Q., You, Z., & Wang, J. (2019). A critical review of corrosion development and rust removal techniques on the structural/environmental performance of corroded steel bridges. Journal of Cleaner Production, 233.Search in Google Scholar
Ren, Z., Shi, L., Chen, H., & Wu, C. (2019). Improvement of corrosion resistance of carbon steel by laser derusting microstructuring. Optical Engineering, 58(5), 1.Search in Google Scholar
Li, Q., Chen, J., & Zhao, L. (2020). Research on an improved metal surface defect detection sensor based on a 3d rfid tag antenna. Journal of Sensors, 2020, 1-13.Search in Google Scholar
Qiu, K., Tian, L., & Wang, P. (2021). An effective framework of automated visual surface defect detection for metal parts. IEEE sensors journal(21-18).Search in Google Scholar
Huan, H., Mandelis, A., Liu, L., Lashkari, B., & Melnikov, A. (2019). Application of linear frequency modulated laser ultrasonic radar in reflective thickness and defect non-destructive testing. NDT & E international, 102(MAR.), 84-89.Search in Google Scholar