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Baihaqi, Daffa Firyal
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Civil Engineering, Building, Construction & Architecture Control & Systems Engineering Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering

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Experimental investigation on discarded aluminum can waste as an anodic anti-corrosion agent for steel in reinforced concrete under aggressive environments Fajar, Ahmad Choiry; Wijaksono, Allan Irnanda; Alhuda, Fajar Firdaus; Baihaqi, Daffa Firyal; Hendrawan, Nadiva Syabilla Sari; Astuti, Pinta; Rafdinal, Rahmita Sari; Purnama, Adhitya Yoga
SINERGI Vol 29, No 3 (2025)
Publisher : Universitas Mercu Buana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22441/sinergi.2025.3.011

Abstract

Corrosion of concrete reinforcement can reduce the service life of buildings, especially in aggressive environments such as coastal areas, where salt content and high humidity accelerate corrosion. Sacrificial Anode Cathodic Protection (SACP) is a commonly utilized method of protecting structures from corrosion by using metals such as zinc (Zn), aluminum (Al), and magnesium (Mg) as sacrificial anodes. However, the high cost of these metals has prompted research into more economical and environmentally friendly alternatives. In this study, recycled aluminum from the beverage can waste was melted at 600˚C and then formed into a circle with a diameter of 11 cm to investigate the utilization and effectiveness of recycled aluminum compared to zinc as a sacrificial anode in the SACP process. The measurement of corrosion potential involved the assessment of current density, on-potential, off-potential, rest-potential, and depolarization. The recycled aluminum anode exhibited a depolarization value of 680 mV, demonstrating that waste cans could serve as an effective sacrificial anode to protect concrete structures.
Co-Authors Alhuda, Fajar Firdaus Astuti, Pinta Fajar, Ahmad Choiry Hendrawan, Nadiva Syabilla Sari Purnama, Adhitya Yoga Rafdinal, Rahmita Sari Wijaksono, Allan Irnanda