Controlled release mechanism and inhibition performance of smart inhibitor LDH-NO2 in the reinforced concrete structures

Reinforcement corrosion is one of the most serious problems limiting the durability of concrete structures. Corrosion inhibitors are used as admixtures in the fresh concrete to prolong the service life of the concrete structure, and calcium nitrite is the most extensively tested admixed inhibitor. H...

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Published in工程科学学报 Vol. 44; no. 8; pp. 1368 - 1378
Main Authors Cheng WEN, Yu-wan TIAN, De-yue YANG, Gui WANG, Pei-chang DENG, Chao-fang DONG
Format Journal Article
LanguageChinese
Published Science Press 01.08.2022
Subjects
controlled release
density functional theory (dft)
inhibition
inhibitor
layered double hydroxide (ldh)
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Abstract Reinforcement corrosion is one of the most serious problems limiting the durability of concrete structures. Corrosion inhibitors are used as admixtures in the fresh concrete to prolong the service life of the concrete structure, and calcium nitrite is the most extensively tested admixed inhibitor. However, the premature deactivation and overdose of conventional inhibitors limit their application, and one strategy to solve this problem is to use smart inhibitors with controlled release, long-term effects, and targeting performance. In this paper, a smart inhibitor of LDH-NO2 was prepared based on the Zn‒Al layered double hydroxide as a shell and the nitrite ions as a core. The first principles calculation, physical detection techniques, immersion test, and electrochemical methods were performed to study the micro- and macro-controlled release mechanism and inhibition property of LDH-NO2. The results show that: (1) The nitrites in LDH-NO2 can release spontaneously in the chloride-contaminated or/and carbonated
AbstractList Reinforcement corrosion is one of the most serious problems limiting the durability of concrete structures. Corrosion inhibitors are used as admixtures in the fresh concrete to prolong the service life of the concrete structure, and calcium nitrite is the most extensively tested admixed inhibitor. However, the premature deactivation and overdose of conventional inhibitors limit their application, and one strategy to solve this problem is to use smart inhibitors with controlled release, long-term effects, and targeting performance. In this paper, a smart inhibitor of LDH-NO2 was prepared based on the Zn‒Al layered double hydroxide as a shell and the nitrite ions as a core. The first principles calculation, physical detection techniques, immersion test, and electrochemical methods were performed to study the micro- and macro-controlled release mechanism and inhibition property of LDH-NO2. The results show that: (1) The nitrites in LDH-NO2 can release spontaneously in the chloride-contaminated or/and carbonated
Author Cheng WEN
Pei-chang DENG
Chao-fang DONG
De-yue YANG
Gui WANG
Yu-wan TIAN
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  organization: Guangdong Marine Equipment and Manufacturing Engineering Technology Research Center, Guangdong Ocean University, Zhanjiang 524088, China
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  organization: Guangdong Marine Equipment and Manufacturing Engineering Technology Research Center, Guangdong Ocean University, Zhanjiang 524088, China
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  fullname: Gui WANG
  organization: Guangdong Marine Equipment and Manufacturing Engineering Technology Research Center, Guangdong Ocean University, Zhanjiang 524088, China
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  organization: Guangdong Marine Equipment and Manufacturing Engineering Technology Research Center, Guangdong Ocean University, Zhanjiang 524088, China
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  fullname: Chao-fang DONG
  organization: Beijing Advanced Innovation Center for Materials Genome Engineering, University of Science and Technology Beijing, Beijing 100083, China
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Snippet Reinforcement corrosion is one of the most serious problems limiting the durability of concrete structures. Corrosion inhibitors are used as admixtures in the...
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SubjectTerms controlled release
density functional theory (dft)
inhibition
inhibitor
layered double hydroxide (ldh)
Title Controlled release mechanism and inhibition performance of smart inhibitor LDH-NO2 in the reinforced concrete structures
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