2022
DOI: 10.3390/ma15238515
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Chromate-Free Corrosion Protection Strategies for Magnesium Alloys—A Review: Part II—PEO and Anodizing

Abstract: Although hexavalent chromium-based protection systems are effective and their long-term performance is well understood, they can no longer be used due to their proven Cr(VI) toxicity and carcinogenic effect. The search for alternative protection technologies for Mg alloys has been going on for at least a couple of decades. However, surface treatment systems with equivalent efficacies to that of Cr(VI)-based ones have only begun to emerge much more recently. It is still proving challenging to find sufficiently … Show more

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Cited by 21 publications
(15 citation statements)
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“…These two treatments must be addressed together, as the pre-treatment step that aims to modify the magnesium surface properties plays a critical role in the performance of the subsequent conversion layer against corrosion. PART II of the review [ 5 ] focuses on Plasma Electrolytic Oxidation (PEO) coating as one of the highly developed methods to protect magnesium surface in the recent years. PART III [ 6 ] reviews corrosion inhibitors for magnesium and approaches to incorporate them into coating systems.…”
Section: Forewordmentioning
confidence: 99%
“…These two treatments must be addressed together, as the pre-treatment step that aims to modify the magnesium surface properties plays a critical role in the performance of the subsequent conversion layer against corrosion. PART II of the review [ 5 ] focuses on Plasma Electrolytic Oxidation (PEO) coating as one of the highly developed methods to protect magnesium surface in the recent years. PART III [ 6 ] reviews corrosion inhibitors for magnesium and approaches to incorporate them into coating systems.…”
Section: Forewordmentioning
confidence: 99%
“…As a controlling step for the performance of a conversion coating, pre-treatment of magnesium surface is also discussed in PART I . PART II of the review [ 9 ] focuses on Plasma Electrolytic Oxidation (PEO) coating as one of the highly developed methods to protect magnesium surface in the recent years. This part of the review ( PART III ) focuses on corrosion inhibitors for magnesium and approaches to incorporate them into coating systems.…”
Section: Forewordmentioning
confidence: 99%
“…However, a further increase in 8HQ concentration results in more heterogeneous morphology, with some regions porous and others compact ( Figure 20 c,d) [ 234 ]. A comprehensive review of the effects of organic/inorganic additives to the PEO electrolytes for Mg alloys has been provided in PART II of this review [ 9 ]. One of the very first attempts to incorporate inhibitors into a PEO layer during the coating formation on a magnesium alloy in a PEO bath was carried out by Blawert et al [ 239 ].…”
Section: Combining Inhibitors With Other Corrosion Protection Strategiesmentioning
confidence: 99%
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“…Magnesium alloy has poor corrosion resistance and strong chemical activity, it needs to be improved by surface treatment [1,2]. Among various surface treatment methods, plasma electrolytic oxidation (PEO) has the advantages of a strong strengthening effect, non-pollution, and simple process [35]. However, the plasma discharge process of magnesium alloy involves a complex combination of physical processes, chemical reactions and electrochemical reactions [68].…”
Section: Introductionmentioning
confidence: 99%