A review on corrosion-protective extrinsic self-healing: Comparison of microcapsule-based systems and those based on core-shell vascular networks

Authors
An, SeongpilLee, Min WookYarin, Alexander L.Yoon, Sam S.
Issue Date
2018-07-15
Publisher
ELSEVIER SCIENCE SA
Citation
CHEMICAL ENGINEERING JOURNAL, v.344, pp.206 - 220
Abstract
Corrosion is a natural phenomenon which significantly deteriorates metal properties. The existing corrosion protection methods are costly and require a regular replacement of sacrificial metals or inevitable use of toxic chemicals. So far, various extrinsic self-healing approaches have been attempted to prevent metal corrosion, which have facilitated the corrosion protection at a reasonable cost and non-toxicity level. Here, we review the existing and the recent novel corrosion-protective extrinsic self-healing technologies, focusing on the capsule-based and the fiber-based self-healing approaches, while looking at the pros and cons of these methods. In addition, by introducing potential ways, this review aims to provide insights for the further development of extrinsic self-healing technologies.
Keywords
NANOFIBER-BASED COMPOSITES; LOW-VELOCITY IMPACT; POLYMER COMPOSITE; LINSEED OIL; ANTICORROSIVE COATINGS; ELECTROLYTE LAYERS; CRACK-PROPAGATION; KELVIN PROBE; STEEL SHEETS; INHIBITOR; NANOFIBER-BASED COMPOSITES; LOW-VELOCITY IMPACT; POLYMER COMPOSITE; LINSEED OIL; ANTICORROSIVE COATINGS; ELECTROLYTE LAYERS; CRACK-PROPAGATION; KELVIN PROBE; STEEL SHEETS; INHIBITOR; Corrosion protection; Self-healing composites; Extrinsic self-healing; Capsule-based self-healing; Fiber-based self-healing
ISSN
1385-8947
URI
https://pubs.kist.re.kr/handle/201004/121147
DOI
10.1016/j.cej.2018.03.040
Appears in Collections:
KIST Article > 2018
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