Environmentally favorable magnesium phosphate anti-corrosive coating on carbon steel and protective mechanisms

Environmentally favorable magnesium phosphate anti-corrosive coating on carbon steel and protective mechanisms

Abstract Polymer coatings are commonly used to protect carbon steels from corrosion but they are susceptible to weathering and many of them have environmental concerns. Therefore, we studied the possibility of an environmentally favorable inorganic magnesium phosphate cement (MPC) coating for protec...

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Main Authors: Siyi Yin, Haiyan Yang, Yinghao Dong, Chengju Qu, Jinghui Liu, Tailin Guo, Ke Duan
Format: Article
Language:English
Published: Nature Publishing Group 2021-01-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-020-79613-3
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spelling doaj-dc4b850812dd4adabbd79a74a8f9bc8f2021-01-10T12:46:53ZengNature Publishing GroupScientific Reports2045-23222021-01-0111111010.1038/s41598-020-79613-3Environmentally favorable magnesium phosphate anti-corrosive coating on carbon steel and protective mechanismsSiyi Yin0Haiyan Yang1Yinghao Dong2Chengju Qu3Jinghui Liu4Tailin Guo5Ke Duan6School of Materials Science and Engineering, Southwest Jiaotong UnivesitySchool of Materials Science and Engineering, Southwest Jiaotong UnivesitySchool of Materials Science and Engineering, Southwest Jiaotong UnivesitySchool of Materials Science and Engineering, Southwest Jiaotong UnivesitySichuan Provincial Laboratory of Orthopaedic Engineering, Department of Bone and Joint Surgery, Affiliated Hospital of Southwest Medical UniversitySchool of Materials Science and Engineering, Southwest Jiaotong UnivesitySichuan Provincial Laboratory of Orthopaedic Engineering, Department of Bone and Joint Surgery, Affiliated Hospital of Southwest Medical UniversityAbstract Polymer coatings are commonly used to protect carbon steels from corrosion but they are susceptible to weathering and many of them have environmental concerns. Therefore, we studied the possibility of an environmentally favorable inorganic magnesium phosphate cement (MPC) coating for protecting mild steel. A formulation suitable for coating steel was developed by compositional modification [i.e., incremental replacement of dead-burned magnesia (MgO) with magnesium hydroxide (Mg(OH)2)] to a road-repair MPC. This modification yielded an acceptable working time and prevented pore formation at the coating-steel interface. Corrosion monitoring by linear polarization and electrochemical impedance spectroscopy for 14 days found that, the MPC coating substantially increased the linear polarization resistance (Rp) [e.g., day 1: (8.2 ± 1.7) × 103 (nadir value) vs. 495 ± 55 Ω cm−2] and charge transfer resistance (Rct) (e.g., day 1: 9.3 × 103 vs. 3.8 × 102 Ω cm−2). The coated steel underwent neutral sodium chloride (NaCl) salt spray for 2400 h without visible rusting. Immersion for 24 h in liquids simulating the pore fluid indicated that, passivation by the excess MgO in the coating was a major contributor to its anti-corrosive property. Tafel polarization in the liquids found that, corrosion current density (Icorr) followed the rank: 3.5% NaCl solution (6.0 µA cm−2) > 3.5% NaCl solution containing MgO (3.6 µA cm−2) > 3.5% NaCl solution containing fragmented MPC (1.7 µA cm−2), suggesting that a physical barrier effect and dissolved phosphate ions improved its protection. This study shows that, MPC coating is a promising durable and environmentally favorable anti-corrosive material for protecting steel structures in some applications.https://doi.org/10.1038/s41598-020-79613-3
collection DOAJ
language English
format Article
sources DOAJ
author Siyi Yin
Haiyan Yang
Yinghao Dong
Chengju Qu
Jinghui Liu
Tailin Guo
Ke Duan
spellingShingle Siyi Yin
Haiyan Yang
Yinghao Dong
Chengju Qu
Jinghui Liu
Tailin Guo
Ke Duan
Environmentally favorable magnesium phosphate anti-corrosive coating on carbon steel and protective mechanisms
Scientific Reports
author_facet Siyi Yin
Haiyan Yang
Yinghao Dong
Chengju Qu
Jinghui Liu
Tailin Guo
Ke Duan
author_sort Siyi Yin
title Environmentally favorable magnesium phosphate anti-corrosive coating on carbon steel and protective mechanisms
title_short Environmentally favorable magnesium phosphate anti-corrosive coating on carbon steel and protective mechanisms
title_full Environmentally favorable magnesium phosphate anti-corrosive coating on carbon steel and protective mechanisms
title_fullStr Environmentally favorable magnesium phosphate anti-corrosive coating on carbon steel and protective mechanisms
title_full_unstemmed Environmentally favorable magnesium phosphate anti-corrosive coating on carbon steel and protective mechanisms
title_sort environmentally favorable magnesium phosphate anti-corrosive coating on carbon steel and protective mechanisms
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-01-01
description Abstract Polymer coatings are commonly used to protect carbon steels from corrosion but they are susceptible to weathering and many of them have environmental concerns. Therefore, we studied the possibility of an environmentally favorable inorganic magnesium phosphate cement (MPC) coating for protecting mild steel. A formulation suitable for coating steel was developed by compositional modification [i.e., incremental replacement of dead-burned magnesia (MgO) with magnesium hydroxide (Mg(OH)2)] to a road-repair MPC. This modification yielded an acceptable working time and prevented pore formation at the coating-steel interface. Corrosion monitoring by linear polarization and electrochemical impedance spectroscopy for 14 days found that, the MPC coating substantially increased the linear polarization resistance (Rp) [e.g., day 1: (8.2 ± 1.7) × 103 (nadir value) vs. 495 ± 55 Ω cm−2] and charge transfer resistance (Rct) (e.g., day 1: 9.3 × 103 vs. 3.8 × 102 Ω cm−2). The coated steel underwent neutral sodium chloride (NaCl) salt spray for 2400 h without visible rusting. Immersion for 24 h in liquids simulating the pore fluid indicated that, passivation by the excess MgO in the coating was a major contributor to its anti-corrosive property. Tafel polarization in the liquids found that, corrosion current density (Icorr) followed the rank: 3.5% NaCl solution (6.0 µA cm−2) > 3.5% NaCl solution containing MgO (3.6 µA cm−2) > 3.5% NaCl solution containing fragmented MPC (1.7 µA cm−2), suggesting that a physical barrier effect and dissolved phosphate ions improved its protection. This study shows that, MPC coating is a promising durable and environmentally favorable anti-corrosive material for protecting steel structures in some applications.
url https://doi.org/10.1038/s41598-020-79613-3
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